brochure as a pdf - Biogas an all
Transcription
brochure as a pdf - Biogas an all
The first part of „Biogas: an allrounder“ contains important facts and figures concerning biogas production and use. The second part introduces over 60 companies, from full-line system suppliers to specialised equipment manufacturers and competent engineering firms www.german-biogas-industry.com New opportunities for farming, industry and the environment — 2015 Biogas is an all-rounder among renewable energies. It can be converted to electricity and heat or be used as a fuel and natural gas equivalent. Germany is the undisputed market leader in this versatile and forwardlooking industry. Biogas plants made in germany are in global demand and are preferred because of their superior technology. They improve the independence and economic strength of municipalities and regions. Biogas: an all-rounder – Biogas: an all-rounder Biogas an all-rounder New opportunities for farming, industry and the environment — 2015 | 4th fully revised edition — photo: muta/Fotolia Biogas an all-rounder New opportunities for farming, industry and the environment — 2015 | 4th fully revised edition — 1 Biogas: The all-rounder – good for the environment and good for people in rural areas Contents 04Faltering at the Head of the Class Foreword by Horst Seide, President of the German Biogas Association 06The Biogas Industry: Forging its own Path Foreword by Dr Jan Štambaský, President of the European Biogas Association. 08 The Industry 42Companies 10Biogas: The Energy Revolution’s All-Rounder 42Overview for Cooking, Heating and Driving 46Business Areas 46Company Profiles 14Biogas 20Heat from Biogas: A Village Supplies Itself 91Publishers 24The New Biogas Markets 94Trade Fairs and Events Interview with Dr Dunja Hoffmann (GIZ) and Clemens Findeisen (German Biogas Association) 97Legal 26 Fermenting Biological Waste: Circular Economy Instead of Waste Disposal 30Fermentation Products: A Valuable Asset 32Major Opportunities for Small Biogas Systems 36From Germany all over the World – Biogas is an Export Hit 40Biogas Helps Climate Protection Using the potentials of biogas: citizens of the German community of Meinheim (Bavaria) Photo: Tom Baerwald Contents 3 Information Faltering at the Head of the Class Foreword by Horst Seide, President of the German Biogas Association Photo: NuernbergMesse/Thomas Geiger Horst Seide, President of the German Biogas Association For a long time, the German biogas industry only knew one way to go: upwards. At the turn of the millennium there were 1,000 biogas plants across the country and these were joined by almost 7,000 more in the next 14 years, together meeting almost four per cent of German electricity needs. No other European country is even close to threatening Germany’s position at the head of the class. However, since 1 August 2014 – actually, since the EEG 2012 amendment came into force on 1 January 2012 – the German biogas motor has been showing clear signs of faltering. In fact, the industry’s own success is now overtaking it and slowing it down. Problems in some regions with the cultivation of energy crops have now become widespread and more dramatic. The German Energiewende and its foundation – the Renewable Energies Sources Act (EEG) – have been systematically discredited and reduced to a debate on costs, which upon closer examination can be seen to be lacking any real basis. At the end of the day, a law and additional requirements have now been put in place which make the construction of new biogas plants almost impossible in financial terms and even pose a great challenge to the operation of existing plants. 4 B i o g a s : a n a ll - r o u n d e r Under the current conditions, the only projects which still pay off – apart from flexibilisation based on the flexibility premium – are new small-scale slurry plants (with a maximum rating of 75 kW) or waste digesters. So we are back where we were 14 years ago at the start of the millennium: the processing of slurry into a high-value fermentation product and the anaerobic digestion of biogenic waste. There is no question as to the arguments in favour of energetically processing waste in biogas plants. Furthermore, as of 1 January 2015, local authorities are obliged to operate separated waste collection, including organic waste in the “brown bins”: This will undoubtedly increase the potential for biogas plants a little. With the anaerobic digestion of slurry there is also definite room to expand: More than a third of exploitable animal excrement still ends up on the fields without processing. However, the majority of Germany’s organic waste already finds its way into biogas plants, so there is no significant potential remaining undiscovered. The knowledge acquired in recent years means that biogas has become more than just a fundamentally important element of modern, closed-cycle agriculture: It is an indispensable pillar of our energy transition. And this is not limited just to the electricity market! There are increasingly wide-ranging and innovative usage options available for the thermal energy produced during electricity generation in a CHP. Heating cooperatives are becoming more popular as a way for private households to benefit directly from biogas plants with secure, economical and climate-friendly locally sourced thermal energy. Additionally, direct feed-in of biome thane from biogas upgraders also offers us a way to use domestic gas and become less dependent on Russian imports. A study from the Fraunhofer Institute for Wind Energy and Energy System Technology (IWES) early this year came to the conclusion that Germany can liberate itself from its current dependency on imported Russian gas by 2030: Biomethane would be an important pillar of this strategy for an accelerated phase-out of natural gas. And last but not least, biogas also offers a great opportunity for private transport – an area often overlooked when it comes to the energy transition. Compared to a similar petrol-driven car, a vehicle fuelled by biomethane generated from waste digestion can represent a CO2 saving of up to 90 per cent. Biomethane/CNG is suitable as a fuel for any gas-powered vehicle and is already available today. All of these opportunities are being limited and strangled by the EEG 2014 amendment. So the inevitable question is: How serious is the German government when it comes to the Energiewende? For the stakeholders in the biogas industry, the changes to the legal framework will necessitate some serious reconsideration. In Germany we will no longer see the type of biogas plant that has been the most common so far: fuelled by energy crops and generating electrical and thermal power for 8,000 hours per year. The EEG 2014 marks the end of the era of statutorily fixed remuneration tariffs and guaranteed take-up of the electricity generated. Operators, manufacturers and suppliers alike will have to look for new markets and find their profitability outside the scope of the EEG: via the secondary and tertiary (minute) balancing power reserve; via demand-actuated feed-in; and from new markets for thermal power and fuels. The export market certainly offers potential for some German biogas manufacturers. There is still great demand for biogas “Made in Germany”, and there is movement in the European biogas market in countries such as France, the UK, Italy or the Netherlands. Additionally, interest is growing in energy from biogas in places such as China and the USA. All the countries which are now entering the field of biogas usage may look carefully at the German market since they can learn from the experiences of the German biogas industry in recent years: There is no need to repeat our mistakes. Without a doubt, difficult times are ahead for the German biogas players. However, they are ready to take a constructive approach to the new challenges and work together to shape a positive future. Indeed, there are no alternatives: The energy transition has to succeed – and biogas will play a decisive role! Yours truly Horst Seide President of the German Biogas Association Foreword 5 The Biogas Industry: Forging its own Path Foreword by Dr Jan Štambaský, President of the European Biogas Association Photo: EBA Jan Štambaský, President of the European Biogas Association The number of biogas plants in Europe is continuously increasing. By the end of 2013, there were more than 14,000 biogas plants in Europe, with an electricity generating capacity exceeding 7,500 MW, followed closely by biomethane production, as producers are on track to produce 1 billion m3 of biomethane this year. These figures are impressive both in terms of magnitude and the rate of increase we are seeing each year. Nonetheless, biogas developments are not just numbers, but rather indicators of a clear success in creating a real biogas industry. Such an industry can drive the development of regions, agriculture and energy production forward sustainably. After all, it is the biogas industry that is now creating new jobs in a Europe hit by an unprecedented economic downturn in the recent years. It is the biogas industry that is bringing investment to rural regions where only very few would consider investing. 6 B i o g a s : a n a ll - r o u n d e r In 2013, some politicians reduced or even completely withdrew support for renewable energies in their home countries. The biogas industry has been affected the most by these changes compared to other renewable energies. This negative attitude may be the major challenge facing biogas to date and it is the responsibility of biogas companies to respond to this challenge together. While energy and climate policies helped to create the biogas industry, our task today is to show that biogas can go even further. We have an opportunity to reveal the full spectrum of products and services the biogas industry can offer to society. This starts with substrates available for biogas production: a wide range of agricultural by-products and energy crops, waste streams from the food and beverage industries, or municipal biowaste separated at source. Another entirely new set of diverse feedstocks is available for the production of biogas with the wide range of products the biogas industry can deliver. Anybody involved in biogas production is well aware of the plentiful choices of energy use for biogas. Even average citizens throughout Europe can enjoy electricity and heat produced at a clean and reliable plant in their neighbourhood, fuel their cars with a renewable gaseous fuel and work in factories powered by sustainable electricity. However, energy is only one part of the broad spectrum of goods biogas has to offer. The biogas industry can also play an important role in providing other significant assets such as grid stability, storable energy and energy security. The natural gas grid is just as important to Europe as the electricity grid. Unlike electricity, however, there are very few substitutes to secure natural gas flows, with biomethane as the only known renewable alternative to natural gas available today. It is not just biogas upgrading, but also gasification processes that are progressing quickly enough to join the club of biomethane producers, followed by emerging, yet highly promising power-to-gas technology. While some countries are looking for alternative and renewable sources of natural gas, Europe is instead looking towards the East, anxiously waiting to see what will happen if the pipeline is closed and the supply of natural gas is suddenly cut off. No one is in a position to design and construct a liquefied natural gas terminal within a few years or to deliver much of the highly controversial shale gas even within a longer time frame. It is the biogas industry which holds the solution, which can construct plants relatively quickly and deliver large quantities of gas, produced in a reliable and sustainable manner. In addition to the points already mentioned, every single biogas plant produces digestate. This high-quality fertiliser has been overlooked time and time again when it comes to discussing the future. However, it is the most natural biogas by-product and one of the greatest benefits of biogas production. Small farmers and plant operators have already been aware of this for years. Digestate can enhance the existing incomes. Hand in hand with the End-OfWaste status and with recycling as an added benefit, the biogas industry will help to take waste treatment to another level. Not many industries can offer this. Several major policies support the aforementioned points. The biogas industry can profit from the correct implementation of these policies. And we wish to see an even stronger biogas industry. The strength of the biogas industry can be seen in this biennial Biogas Allrounder. I wish you an inspiring reading. Best wishes, Jan Štambaský, President of the European Biogas Association Foreword 7 Photo: Tom Baerwald Bio 8 B i o g a s : a n a ll - r o u n d e r gas an all-rounder 9 In 2014, 41,000 people were working in the German biogas industry – in agriculture, plant construction, service, operation and maintenance. Local specialist craftsmen benefit from this. Using the opportunities provided by a regional energy supply system with biogas: farmer Alexander Wolf, apprentice Patrick Seitz and engineer Andreas Niederlöhner, plant designer (from left to right) Photos: Tom Baerwald 10 B i o g a s : a n a ll - r o u n d e r Photos (v.l.n.r.): Tom Baerwald/Agrikomp; Wolfgang Jargstorff/Photolia; Tom Baerwald/Agrikomp; Fachverband Biogas e. V. Biogas: The Energy Revolution’s All-Rounder Just like natural gas, biogas is a gaseous mixture that is primarily made up of methane. It is produced by microorganisms when they decompose plants, manure or slurry. Biogas is also generated at wastewater treatment plants and waste disposal sites. For use as an energy source, biogas is generally converted into electrical and thermal energy in cogeneration plants (CHP units). The heat generated can be used to heat buildings, for example. Thus, the energy is used twice and in a particularly efficient manner. Electrical and thermal energy produced by biogas plants is especially climate-friendly because the amount of carbon dioxide (CO2) produced during biogas production is more or less equal to the amount absorbed by the energy crops during growth or the amount which escapes as waste decays. Heat and electricity from one single source of energy Biogas production also has an indirect impact on climate protection. Here, the controlled fermentation of liquid manure or compostable waste prevents harmful gases such as methane, which contributes significantly more to greenhouse effects than CO2, from escaping. A biogas plant with an installed electricity capacity of about 500 kilowatts (kW) produces about four million kilowatt hours (kWh) of electricity and 4.4 million kWh of heat in one year from about two million cubic metres (m3) of biogas. It therefore replaces the equivalent of 440,000 litres (l) of fuel oil. Thus, a farmer can produce enough electricity for more than 1,000 average four-person households in one year at his power station. At the same time, the CHP unit produces enough thermal energy to heat 150 households. Biogas producers in Germany can sell the electricity generated for fixed feedin tariffs in accordance with the German Renewable Energy Sources Act (EEG), which has been in force since 2000. Here, the operator’s share is between 12 and 25 cents per kWh – depending on the size of the plant, the substrate used and the year in which the plant was commissioned. The newer a plant, the lower the compensation for electricity fed into the grid. For example, a new 500 kW plant, connected to the grid from 1 August 2014, only receives about 12.3 ct/kWh. The basis for biogas generation is mainly agricultural energy crops and farm fertilisers, such as manure or slurry. In 2014, the 7,944 biogas plants in Germany generated about 27,6 billion kWh of Biogas: The Energy Revolution’s All-Rounder 11 Photo: Fachverband Biogas e. V. Biogas is produced by fermenting biomass. It is a gas containing methane, which serves as a renewable and versatile raw material for generating electricity, heat and fuel, thus vitally contributing to a safe and environmentally compatible energy supply. Biogas can be stored or can be fed into the natural gas grid and is therefore extremely flexible. Biogas is the only renewable energy source capable of providing electricity and heat in line with demand. gas Bio Co plagener nt atio n He at co ns um pti on pla y icit ctr e l E eat al h Loc on pti um s n co tem sys nt e atm Tre ge illa gv n i ur bo igh Ne d gri gas l a tur Na y icit ctr Ele electricity, thereby providing about 7.9 million households with environmentally-friendly energy. The biogas plants provide for more than four per cent of Germany’s electricity consumption. Photo: Tom Baerwald/Agrikomp Transporting heat: from the biogas plant to the public district heating system While the purchase of electricity by the utility companies is statutorily regulated, biogas producers must market thermal energy on their own initiative. It is only seldom that the demand on their own agricultural farms is great enough to use all of the heat produced throughout the year. Instead, heat can, for instance, be fed into a district heating network. In addition to households, especially such consumers who require heat throughout the year, are of interest – for example community buildings such as schools and city halls, retirement homes, swimming pools, greenhouses and fish farms. 12 at He cog Ext ene ern rat al ion lant p Germany is the largest biogas producer in Europe. However, other countries are also extremely active. The second largest market for biogas plants is Great Britain, which generates electricity predominantly from landfill gas. Italy is in third place. Here, compensation for electricity fed into the grid at a rate of 28 cents per kWh for electricity generated using agricultural raw materials created a real boom up until 2012 Cogeneration plants convert biogas into electricity and heat. B i o g a s : a n a ll - r o u n d e r e, c. tov , et s seater a G h gas n tio era n e g Co Bio ga sl in ine clo se dis tan ce ths Ba All-rounder biogas: depending on the users of heat or the type of use, biogas can serve a number of purposes. ity bil Mo nt at He ge illa tv n a t Dis s ath ., b g . E Micro gas grids: from the biogas plant to external CHP units If the heat consumer is very far away from the biogas plant, transporting the heat becomes expensive. In this case, the CHP unit can also be set up at the location which requires the heat. The biogas is simply transported via a pipeline to the satellite CHP unit in the city or at a heat consumer and is then converted into electricity and heat on-site. The waste heat can then be distributed locally at economic rates. Biomethane in the natural gas grid After processing, biogas can also be fed directly into the existing natural gas grid. This is because it uses the available infrastructure and is used as a natural gas equivalent (called biomethane). At present, around 150 plants in Germany feed a volume of approximately 600 billion cubic metres (m3) of biomethane into the network every year. The natural gas grid is also fed into in Sweden and the Netherlands. Biogas as fuel Biogas, as a substitute for natural gas, can even be used in vehicles. Biomethane is mainly used as fuel in Sweden. The public transport buses in more than ten Swedish cities run on biomethane. The kilometric performance obtained from one hectare (ha) of maize is around 70,000 kilometres (km) – this is equal to one and a half times the circumference of the earth. To date, there are about 180 biogas filling stations in Germany where one can fill up on biomethane as a pure fuel. At least one third of the more than 900 natural gas filling stations mix biomethane with natural gas at ratios of between five and 100 per cent. Biogas industry statistics at a glance Number of plants (of these feeding biomethane) Forecast for Forecast for 2013* 2014** 2015** 7,850 (144) 7,944 (153) 8,005 (156) Increase in power generation capacity in MW per year (including redundant capacity) 191 316 195 Increase in productive power generation capacity in MW (not including redundant capacity) 158 136 8 Installed generation capacity MW (incl. power feed-in through biomethane) 3,543 3,859 4,054 Storable energy that can be used at any time Gross power generation in TWh per year (not including redundant capacity) 26.42 27.55 27.88 Homes supplied with biogas based electricity 7.5 million 7.9 million 8.0 million Biogas can be stored without any problems and can thus be used at any time, regardless of the place of origin. This characteristic is capitalised on by combined power plants, for example. They combine different sources of renewable energies in order to supplement their supply and to ensure provision of the required energy volume at all times. Here, biogas plays a significant role due to its storage properties: It compensates for fluctuations in other renewable energies such as wind or solar energy. Because of this potential, biogas is being used more extensively within the context of the approaching transformation of Germany’s energy system. CO2 saving using biogas in millions of tonnes 16.8 17.6 17.8 7.3 billion 7.4 billion 7.2 billion 41,000 41,000 39,000 Contribution to climate protection The production of biogas makes a significant contribution to climate protection, because methane (a much stronger greenhouse gas than CO2) is used in the biogas plant to ferment slurry (liquid manure) and manure, which otherwise escapes into the atmosphere from the liquid manure tank. Turnover in Germany in € Jobs * internal extrapolation based on federal state data ** based on expert interviews (as of November 2014) However, a biogas plant generates electricity that is virtually CO2 -neutral from energy crops as well. This means: Only the CO2 volume that the plants had previously absorbed from the atmosphere in order to grow is emitted back into the atmosphere during combustion in the CHP unit. In comparison to power plants using fossil sources, the CO2 emissions from modern biogas plants are less than half. The third effect is that the fermentation leaves behind a high-quality fertiliser. This digestate is a substitute for mineral fertilisers, which have to be produced using a great deal of energy. This can also help to reduce CO2 emissions, thus improving climate protection. Biomass yields t of dry mass/ha p Good growing conditions p Average growing conditions p Bad growing conditions 30 30 30 27 25 20 20 20 13 10 16 15 13 15 10 8 20 20 18 17 15 13 16 13 10 12 10 20 20 10 10 10 6 Biogas: The Energy Revolution’s All-Rounder 13 G a r r as ab sla le n d fe / ed t Sz ar Cu va p sg ra pl an ss ts pl an W ild G an ree d nr m ye aiz e M ill et et Be M Gr a cr in /w op h sil ole ag e 0 aiz e 0 Biogas is produced locally and strengthens the sense of community. Citizens plan and secure their own self-sufficient energy supply system. Actively engaged in ensuring the quality of life for future generations: Klaus Uhl, the first chairman of the local heating cooperative (left), and farmer Robert Bergdolt Photos: Tom Baerwald Photos (v.l.n.r.): Hugo Vogelsang Maschinenbau GmbH; WoGi/Photolia; Tom Baerwald/Agrikomp; AUDI Biogas for Cooking, Heating and Driving Biogas is a natural product and is produced by anaerobic organisms wherever there is an absence of oxygen. Manufacturers of biogas plants make use of this principle in their power generation equipment. Here energy crops and biogenic waste material are converted to a flexible energy carrier by fermentation. The biogas plant simulates the natural process Photo: Tom Baerwald Biogas is actually a renewable energy source but it is nothing new, as this methane-containing gas is produced all around in nature where biomass is decomposed under the exclusion of oxygen. Unicellular organisms called archaea are responsible for this. They date back to prehistoric times, when different conditions for life prevailed on earth. Today they live in swamps, standing water and in the stomachs of animals and humans, i.e. everywhere where it is damp and where there is a shortage of oxygen. Biogas plants use the special property of archaea to produce cost-effective and climate neutral electrical energy and heat. In contrast to nature, here the fermentation process proceeds in a controlled and particularly efficient manner. Biology and technology are perfectly attuned to each other. This makes it possible to generate 20,000 kWh peak output of electrical energy from 1 hectare (10.000 m 2) of maize; equivalent to the supply for six households all year round. The efficiency of modern plants is substantial: Together with the heat energy, one hectare of maize delivers five times more energy than needs to be used in growing, harvesting and converting it into biogas. B i o g a s f o r C o o k i n g , H e at i n g a n d D r i v i n g Photo: Tom Baerwald A biogas plant with 500 kWel replaces 440,000 l of heating oil per year. Biogas produces energy from local raw materials. 15 Structure of a biogas plant Gas holder. (plastic sheet cover). Air supply Digester cover. (wood construction). Gas outlet Pressure relief valve. to consumption Substrate inlet. Overflow to next container Insulation with. weather protection. Wall and underfloor heating Concrete container. Propeller agitator. Condensate trap Source: Biogashandbuch Bayern (LfL) Photo: Schmack Biogas GmbH (Viessmann Group) The digester is the heart of the plant Even though a biogas plant is made up of several individual components, in most of the turnkey plants installed all of the parts are matched precisely to each other and are nowadays predominantly fully automated. Each stirring mechanism, pump and container can be observed and controlled from the display screen. View of the interior of an empty digester and agitator The archaea themselves live in the so-called digesters. These are large, sealed airtight, steel or concrete containers in which the biogas is generated. Organic matter is supplied as feedstock. Originally farmers primarily used slurry or manure from livestock farming. But these organic materials deliver a limited amount of biogas in comparison. Nowadays, therefore, they are substituted by by-products from food production, biowaste and energy crops. Specially developed dosing systems feed the biomass feedstock into the digester accurate to the nearest kilogramme. The dosing devices can be controlled so that they automatically feed in small quantities several times an hour. These quantities are recorded by weighing systems and logged in the computer. The operator can read off precisely how much biogas is generated by the raw materials. Photo: Fachverband Biogas e. V. In the digester, the exact living conditions prevail under which the archaea optimally operate. As a rule, this requires heating the insulated containers to between 35 and 40 degrees Celsius (°C). The available carbon in the maize, grass, slurry or alternative raw materials is converted by the archaea to biogas within a few days. Stirring mechanisms ensure the energy-saving mixing of the fermentable contents and allow the gas formed to escape. The biogas is then transferred via a gas pipeline to the combined heat and power plant (CHP). Finally the fully fermented material is pumped out into the fermented residues storage tank. Digesters are airtight containers made of steel or concrete. In them, the biogas is generated. 16 B i o g a s : a n a ll - r o u n d e r Average composition of biogas Typical biogas from energy crops contains mainly methane and carbon dioxide. Carbon dioxide CO 2 Water H2 O 38% Oxygen O 2 Other 5% Methane CH4 1% 1% 55% The biogas arising must be desulphurised and dried before burning, as hydrogen sulphide or moisture vapour in the gas can damage the combustion engine. 50 to 60 per cent of the biogas is combustible methane. The remainder is made up of mainly CO2 and lesser parts of oxygen and nitrogen. The methane is burnt in the engine, while the CO2 escapes into the atmosphere. As only the amount of CO2 is thereby released which the plant has absorbed during growing, the combustion of biogas is virtually climate neutral in comparison to conventional natural gas. The engines are rugged, high-technology machines, which react flexibly to varying methane contents in the biogas through appropriate control devices. Their efficiency has doubled in the last ten years and today is over 40 per cent. This means that more than 40 per cent of the energy used is converted into electrical power, but the residual energy can for the major part also be used. The combustion engine drives a generator that produces the required electrical power. This is generally fed into the local power network. The engine itself must be cooled by water. The heat of the cooling water at 80 to 90°C and also the heat from the exhaust gases can be efficiently utilised via a heat exchanger, for example, in swimming baths, greenhouses, animal stalls and living accommodation. B i o g a s f o r C o o k i n g , H e at i n g a n d D r i v i n g Fermentation tests provide information on the suitability of various substrates for biogas generation. Photo: Tom Baerwald/Agrikomp Maintenance and control of a cogeneration plant: Even negligible differences in the efficiency rate have a big effect on the overall efficiency of the biogas plant. Photo: Hochschule Anhalt/Biotechnikum Köthen Biogas consists of one-half methane 17 3,750 Biomass potentials 3,750 Assuming 4 mio ha of arable land are available for cultivating energy crops, 2 mio ha of which are for biogas 1,900 Calculations from FVB, 2012; data taken from KTBL 2010; DBFZ 2011 p p Capacity already installed MWp:p Technical potential: Realistic potential: 1,545 300 1,503 1,081 in MWel 902 200 562 337 337 270 250 126 114 75 55 Renewable raw materials: Livestock manure: Maize, whole crop silage, alternative energy crops etc. Liquid manure, dung etc. Renewable raw material by-products*: Purely plant-based by-product list**: Straw, potato haulms, turnip tops etc. Stillage (wet distiller’s grain), spent mash etc. Organic waste: Animal by-product: Green waste bins, market waste etc. Food waste, fats etc. *Parts of plants cultivated on agricultural land that are the by-products of what is actually being produced **Under the German EEG, this comprises materials from agro-industrial production. Photos: agri-capital The biogas plants in Pliening near Munich were the first in Germany to feed cleaned and conditioned biogas into the natural gas network. Biogas in the gas supply network The high-technology biogas sector Biogas is not always converted to heat and electrical power at the place where it arises. It can also be treated and fed into the gas supply network. In Germany there is a widely distributed and well developed gas supply network. The low, medium and high pressure pipelines amount in total to some 450,000 km. In comparison to the 1.7 million km electricity supply network that is quite small. But the gas supply network can handle high volume and transport great quantities of energy. And unlike the electricity supply network, feed and demand do not need to be so accurately matched to each other. The development of state-of-the-art measuring and process technology, intensive research in the field of biochemistry and creative services in mechanical engineering are crucial for the success of German plant engineering technology. A large number of scientists are working on improving the performance of biogas plants. As a result, power plants increasingly produce more energy with increasingly less input. Biogas is converted in several process steps, primarily through the separation of CO2, into the natural gas equivalent of biomethane. Public utilities or industrial facilities in urban centres are able to draw the gas from the network and convert it to electricity and heat at a suitable location, for example, in the basement of a swimming pool or a gym with high heat requirements. In this way, the gas supply network functions as a transport route and the energy can be very efficiently transferred with minimal losses. 18 B i o g a s : a n a ll - r o u n d e r Fuel for long distances Once biogas is in the gas supply network it can fulfil the same tasks as natural gas; for example as a fuel for vehicles. The travel range from 1 hectare of maize is around 70,000 km, equivalent to one and a half times round the world. In Germany there are now 180 biogas filling stations for refuelling with bio-methane as a clean fuel. An increasing number of natural gas filling stations add biomethane to natural gas, at a proportion between five and 50 per cent, and biogas can be found as a fuel at around 35 per cent of the over 900 filling stations throughout Germany. Furthermore gas is by far the most cost-effective fuel at the filling station Photo: Zentrum für Sonnenenergie- und Wasserstoff-Forschung Storage for energy transition Due to its ability to be stored, biogas will play an increasingly important role in energy transition: As when the sun is not shining or the wind not blowing, flexible power plants have to step in quickly. Modern biogas CHP plants are particularly suitable for such operation. An increasing number of biogas plants in Germany no longer generate power around the clock, but only when required. For this reason, plants are designed to be „flexible“. This means, for example, that a plant with a supplied output of 500 kilowatts (kW) actually has an installed capacity of 1,000 kW. The plant, however, will only run for half the time, for instance, when there is a high demand for power where as a result the cost of power is more expensive. And instead of 8,000 full operating hours, this plant would then only clock up 4,000 hours of actual operation. This type of generation is strongly promoted by the German Federal Government under the Renewable Energy Sources Act (EEG). This has more than just financial benefits for the operator. For example, as the larger CHP plants are more efficient, the operator requires less raw materials for the same amount of power generation. In addition to this, increasingly more biogas plants, which are equipped with larger engines and gas storage facilities, are also taking on the function of stabilising the electricity grid. For a long time, this regulating energy supply has been served by fossil power plants. The flexibility of the biogas plants, therefore, helps to displace fossil fuel power stations and improve climate protection. B i o g a s f o r C o o k i n g , H e at i n g a n d D r i v i n g A tankful of biomethane saves up to 90 per cent of CO2 emissions in comparison with fossil fuels. Photo: Fraunhofer IWES | Beushausen today. The German Biogas Association-Biogas Tour in 2013 demonstrated, in a four month, 13,000 km promotional tour through Germany with a biogas fuelled bus, that biogas is reliably and inexpensively available. Photo: Fachverband Biogas e. V. Power-to-gas research plant in Stuttgart, Germany: Surplus electricity is transformed into hydrogen using electrolysis. CO2 from biogas plants can be used in the methanation process to generate synthetic methane from hydrogen and carbon dioxide. At the research biogas plant in Bad Hersfeld in Germany, the significance of biogas for the storage of surplus electricity is being examined. 19 Biogas: a safe footing for the future. Because biogas is not only good for the environment, it also contributes to the future sustainability of municipalities. Active members of the local heating cooperative of Meinheim in Germany: Thomas Eschenbacher, chairman of the supervisory board, with family (left) and plant operator Frank Wolf Photos: Tom Baerwald Photos: Stadt Meinheim (links), WEITERE: Tom Baerwald Heat from Biogas: A Village Supplies Itself However, this arrangement, which was expected to benefit all those who are taking part in the project, was not planned. The developments, which lead to two biogas plants and one local heating grid in the village, were carried out at the same time and initially without any coordination – this was more or less of a coincidence and fortunately turned out to be one project for the whole village in the end. The farmer Philipp Westphal had the idea of building a biogas plant back in 2008, in order to place his cattle fattening and arable farm on a broader footing. While training in agricultural engineering in Triesdorf, he worked intensely on the subject, participated in seminars and visited biogas plants. There already were a few plants in the region, for example, in the neighbouring villages of Ostheim, Trommetsheim and Alesheim, which is why the subject was not new to the young farmer. The development plan was quickly put into practise, as a company specialising in building biogas plants and local heating grids had already been established in the area and the framework conditions were suitable and also because the biogas plant was optimally suitable for an operation of this size. In 2009, the biogas plant initially achieved a grid feed-in of 190 kW outside the village, which also housed a cowshed for the Westphals. This increased by 210 kW in October 2010. Five tonnes of cattle manure, 15 tonnes of cattle slurry, 15 tonnes of maize and 4 tonnes of grass are used here on a daily basis. Frank Wolf, another local farmer, also built a biogas plant with an overall power of 380 kW. Since both biogas plants could only use small amounts of the heat produced during electricity generation, it was obvious that the heat should be used by the village. H e a t f r o m B i o g a s : A Vi l l a g e Supp l i e s I t s e l f 21 Photo: Stadt Meinheim Meinheim, a small German municipality in Niederfranken, close to the Altmühl Valley, campaigned for an independent and advanced energy supply. A local heating grid run by a co-operative has been providing thermal energy to the 650 inhabitants of the village for the last two years. And this system really has a lot to offer: Unlike many such standard projects based on just one biogas plant, two plants run by local farmers are simultaneously feeding into the heating grid in Meinheim. Meinheim in Middle Franconia, Germany: 100 households are heated by a local heating network using biogas heat. National benefit regional and supra-regional ers rm Fa te ma on Cli tecti pro Job s at, he ity, ine ch s Ma plier sup Bio s ga nd si us l fue ic ctr Ele Job s y fet Sa ply up s of try Hi gh -qu ali ty Tax es fer tili ser Job d an fts es a r C rad t ies alit p i c ni Mu Photo: Tom Baerwald Founding of a co-operative Director of the Board of the Cooperative, Klaus Uhl (foreground), and Alexander Wolf, farmer Photo: Tom Baerwald Wood pellet heating guarantees the provision of heat if the biogas plants fail – a situation that has never occurred yet in Meinheim. The Meinheimers realised this too, expecting a local heating grid using locally generated bioenergy to provide reliability, environment-friendliness and calculable costs. The topic was discussed by the village at many gatherings and the advantages and disadvantages were compared. Finally, Meinheim founded a co-operative for the local heating system. The framework conditions of having two local biogas plants offered optimal options: Instead of the original plan for a woodchip furnace, which was to meet the needs of the village on cold winter days and during downtimes if the heat delivered by one biogas plant was not adequate, the plan now included both biogas plants. Thus, the energy supplied on peak load days was sufficient to meet the needs of the entire village. Those in charge of the project think it is unlikely that both biogas plants might breakdown at the same time. Nonetheless, an additional wood pellet heating system ensures a secure supply. 22 B i o g a s : a n a ll - r o u n d e r ers rm Fa The first members of the heat co-operative joined the network in autumn 2012; the connection work went on until early 2013. In addition to many private households, a carpenter’s workshop, a furniture shop and public buildings such as the fire station, a general-purpose building, a school, a kindergarten and an administration department were connected. The controls for the sophisticated system are to be found on the site of the wood-pellet heating system – an attractive new building on the outskirts of the village. Here, any thermal energy provided by the wood-pellet heating system must also be integrated into the local heating network along with the thermal energy supplied by the CHP units at both biogas plants. The plant has been running problem-free so far. Photo: Tom Baerwald Frank and Alfred Wolf operate one of the two biogas plants in Meinheim. Photo: Tom Baerwald Storing thermal energy The Meinheimers do not wish to rest on their laurels: In the long term, they would like to advance the use of bioenergy. The main focus is the storage of heat, because most of the heat generated in summer is not used, as was also the case in the past. The households can store this energy locally for a short period of a few hours in the buffer storage installed in their houses. However, other technologies are required for the storage of thermal energy over medium and long periods. Storing thermal energy generated in summer for use in winter is certainly possible, meaning that very few wood pellets would have to be burnt in winter, for example. Substrate feeding Photo: Tom Baerwald The central heat station controls the local heating system. H e a t f r o m B i o g a s : A Vi l l a g e Supp l i e s I t s e l f 23 Photo: AD Solutions With the assistance of the regional GIZ programme, a biogas plant for the treatment of 150 cubic metres of pig slurry per day along with slaughterhouse waste was built in Costa Rica in 2013. The New Biogas Markets Interview with Dr Dunja Hoffmann (GIZ) and Clemens Findeisen (German Biogas Association) Photo: GIZ Dr Dunja Hoffmann Renewable Energy Advisor Deutsche Gesellschaft für Internationale Zusammenarbeit (GIZ) GmbH Dag-Hammarskjöld-Weg 1-5, D – 65760 Eschborn Phone : +49 (0)6196/79-1374 Email : [email protected] The use of biogas technology in developing and emerging countries is currently enjoying an up-swing. This is creating great opportunities for the German biogas industry. However, certain challenges must be overcome when dealing with countries that are both geographically and culturally foreign. The Deutsche Gesellschaft für Internationale Zusammenarbeit (GIZ) GmbH operates in close cooperation with the German Biogas Association (Fachverband Biogas e.V.) and supports companies when entering the new biogas markets. Dr Dunja Hoffmann from GIZ and Clemens Findeisen from the German Biogas Association have provided an overview of the cooperation between the two organisations and explain ways in which companies could benefit. What is the incentive for GIZ getting involved in biogas? Dunja Hoffmann: GIZ aims to contribute towards sustainable economic development as well as climate and environmental protection. Biogas is a pio- 24 B i o g a s : a n a ll - r o u n d e r neering technology for achieving this objective. We are currently working on projects, which deal with biogas, in a number of countries, for example, Brazil, Mexico, China, Turkey, Indonesia, Kenya and South Africa. What exactly do you do to promote the use of biogas in these projects? DH: The process often begins with the policy-makers, but measures are also taken to support international companies as well as communities and local micro-businesses. In most cases, in order to support the partners we usually start by analysing the potential, but we also provide support regarding the political framework for biogas. GIZ and German Biogas Association have been cooperating for quite some time. Who benefits from this and how? DH: GIZ has considerable experience in the area of household biogas plants. However, in developing and emerging countries the focus is increasingly on technology for power generation, ener- Photos: SNOWLEOPARD 2 MW biogas plant for the fermentation of vegetable waste in Kenya. The key equipment for the biogas plant comes from Germany. Otherwise, as much as possible is bought locally. cation with respect to the technology and the associated specifics. Last but not the least, functioning maintenance systems must be set up for the plants, so as not to have just one plant which might only function if the trained local engineer is on site. Photo: Fachverband Biogas e.V. gy feed-in and biomethane processing. This poses questions which require a completely different approach. The German Biogas Association has extensive expertise in this field. There is great demand for this know-how abroad. Clemens Findeisen: It is important to high- light new prospects for the German biogas sector on the international market, as there has been a significant downturn on the domestic market. Due to decades of experience in developing and emerging countries, GIZ is an important and well-connected point of contact, is familiar with local conditions and can support businesses by providing practical information. Our common objective is to successfully execute biogas projects abroad – in an efficient, safe and sustainable manner. CF: There are also cultural differences, What challenges have to be overcome in “biogas developing countries”? What are the most common motives for setting up a biogas plant in the individual countries? DH: Usually one must first create a com- DH: For example, in the recent past it was the Clean Development Mechanism (CDM) in emerging countries. When CDM was still interesting and active, the emphasis was not primarily on energy production but more so on preventing methane emissions and on the additional generation of CO2 emission mon understanding of the issues we are talking about: household biogas plants or industrial biogas use as is the case in Germany. Biogas may also refer to sewage and landfill gas in emerging countries. Furthermore, there is increased local demand for information and edu- which are often underestimated. One of the most important challenges from our point of view is the successful transfer and adaptation of technology to the local conditions. Furthermore, financial conditions are often challenging, one must adapt to the local conditions, ferment complicated exotic substrates and face high cement costs, lack of infrastructure, high potential differences in power supply systems, lacking safety standards, inadequate operator qualifications, etc. I n t e r v i e w : THE NEW B I OGAS M ARKETS 25 Clemens Findeisen Consultant Development Cooperation German Biogas Association Angerbrunnenstr. 12, D – 85356 Freising Phone : +49 (0)8161/98 46 811 Email : [email protected] Photo: agriKomp GmbH With the support of develoPPP.de, GIZ and the local operator Biogas Power Company of East Africa Limited, a German company (see page 50) has installed a biogas-plant that uses feedstock from the agribusiness industry in Kilifi in Kenya. (right and below) Photo: agriKomp GmbH certificates. However, efficient energy production has become more important since the CO2 certificates have fallen in price. In most cases, the impetus is stabilisation of the system in order to avoid ongoing power failures. DH: Ultimately, it is not about export- ing technology, but rather as much local production as possible. Support for the transfer and adaptation of technology is of great importance to GIZ. CF: Moreover, the partnerships neces- CF: Feed-in tariffs are in place in many Photo: agriKomp GmbH developing and emerging countries as well as some very ambitious plans in the renewable energies sector. In addition to this, of course, there is also a desire within the industry to be able to provide a decentralised energy supply itself. Thus, energy-independent and decentralised solutions play an increasingly significant role in developing and emerging countries – and this is exactly where biogas, the all-rounder, is the ideal partner and provides the motivation for enterprises to launch such projects. Nonetheless, the impetus for using biogas is often the disposal and use of waste materials. What are the challenges and obstacles faced when transferring and adapting the technology? CF: The transfer and adaptation of tech- nology always involve a delicate balance between price and quality. It is a task and a challenge for the German business community to adapt the technology in such a way that reliable and sustainable systems can be installed and operated. As much technology as necessary and as simply as possible. 26 B i o g a s : a n a ll - r o u n d e r sary for this set-up are becoming more and more important. Especially if one is aiming to create local added value. The use of local technology is also being promoted in some countries. How can German companies benefit from the cooperation between GIZ and German Biogas Association in light of the currently stagnating domestic market? DH: On the one hand, with information that we always provide, for example in the Biogas Journal. This journal provides information on contact partners and interesting promotional programmes such as develoPPP.de. With develoPPP.de, the Federal Ministry for Economic Cooperation and Development supports the involvement of the private sector where entrepreneurial opportunities and development policy needs intersect. Over 35 develoPPP.de projects have already been supported in the biogas sector. Moreover, GIZ has many contacts at the local level. Here, GIZ and the German Biogas Association can act as an „honest broker“. Photo: EVONIK GIZ and a German biogas company (see page 62) transfer skills and technology to improve the efficiency of biogas with biomethane generation in China. The project is supported by develoPPP.de, a programme to foster cooperation between the private sector and development policy for their mutual benefit. CF: In addition to this, GIZ and Ger- man Biogas Association are involved in various joint activities, such as workshops during the annual Biogas conference, joint missions and delegation visits. Among other things, the framework conditions for private sector involve-ment in developing and emerging countries are being improved by these joint efforts. Do you have any other tips for companies that would like to get involved in developing and emerging countries? DH: Working together with the world is extremely exciting! Every day brings new surprises that you have to be prepared for; plan to spend a little more time than anticipated and finally, keep at it! CF: From what the companies that are working in the developing and emerging countries tell us, they are learning a lot form this – both personally and professionally. These projects and businesses are run with a lot of passion, emotion and commitment. In addition, I would also like to draw particular attention to the extensive support measures and activities of the „renewables – Made in Germany“ initiative, including information events, market analyses and delegation visits. These and other activities on the subject of biogas can be found at www.biogas.org. Deutsche Gesellschaft für Internationale Zusammenarbeit (GIZ) The Deutsche Gesellschaft für Internationale Zusammenarbeit (GIZ) GmbH is an experienced service provider and as a federal enterprise assists the German government in achieving its objectives in the field of international cooperation. GIZ offers demand-driven, tailor-made and effective services for sustainable development. Most of GIZ work is commissioned by the German Federal Ministry for Economic Cooperation and Development, but GIZ also operates on behalf of other German ministries as well as public and private sector clients in Germany and abroad. GIZ works closely with the private sector and promotes synergies between the development and foreign trade sectors. GIZ operates in more than 130 countries worldwide and has 16,510 staff around the globe. In the area of renewable energy, GIZ is currently executing 140 projects in over 40 countries. More than ten of these projects have a biogas component and four of them focus mainly on biogas. Cooperation with the private sector and with German and local companies is a major topic in these development projects. GIZ has been working together with the German Biogas Association for many years and this cooperation was formalised in 2011 and renewed in 2014. www.giz.de I n t e r v i e w : THE NEW B I OGAS M ARKETS 27 Photo: Bioconstruct GmbH The biogas power plant in Melle (Lower Saxony, Germany) processes a maize silage and slurry mix and uses the resulting waste heat for wood drying. Fermenting Biological Waste: Circular Economy Instead of Waste Disposal 34 per cent of all municipal waste produced in the European Union is still dumped at waste disposal sites. In most EU countries in Eastern and Southeast Europe, the waste disposal quota even exceeds 70 per cent. The high volumes of biodegradable municipal waste are responsible for the formation of methane gas, which is particularly harmful to the climate, at waste disposal sites. Fantastic options open up if damp biowaste is collected separately: With the right treatment, it can be used to produce the versatile energy source that is biogas as well as a high-quality fertiliser. The European Waste Framework Directive demands a drastic reduction in the quantities of waste to be disposed. This should be done by redesigning waste management, taking into consideration the five-pillar hierarchy – prevention, reuse, recycle, other kinds of utilisation, such as energy recovery, and disposal only as a last resort. The Waste Framework Directive targets at achieving a recycling ratio of 50 per cent of the municipal waste of all the member states by 2020. organic and green waste, as recorded by the waste management companies with public contracts. They are mainly recycled by composting. The resulting compost provides a substitute for peat taken from raised bogs as an excellent fertiliser and soil conditioner. However, there is still a lot of energy left in the damp, biogenous waste matter: Biogas, which can be used to generate electricity, heat or fuel, is produced by anaerobic digestion. 62 per cent of municipal waste is already being recycled in the Federal Republic of Germany. The recycling ratio has even been reported at 100 per cent for Complex biofractions 28 B i o g a s : a n a ll - r o u n d e r Biodegradable waste in Germany represents 30 to 40 per cent of the total Photos (from top to bottom):: Schmack Biogas GmbH (Viessmann Group); Bertold Werkmann/Fotolia; thomass/Fotolia As much biogas can be produced from 70 tonnes of organic waste as from one hectare of silage maize. quantity of municipal waste. Separate collection of biowaste began more than 25 years ago. Since then, the volume of separately collected biowaste has increased more than sevenfold. The German Closed Cycle Management Act demands the introduction of nationwide collection of biowaste throughout the whole of Germany by 2015. The white spots on the map are only vanishing very reluctantly, as the Act also allows for self-composting on private property used by the owner. At present, 80 per cent of the population lives in areas with a collection system for household waste in „biowaste bins“. 4.2 million tonnes of stale bread, vegetable leftovers, kitchen waste, spoilt and unusable fruits and vegetables are collected every year in a similar fashion. This potential can be increased by about 3 million tonnes if the nationwide collection scheme is implemented successfully and the collection capacity in areas with organic waste bins is increased. In addition to that, there is an amount of 4.5 million tonnes of green waste: Green waste means grass cuttings and (partially woody) clippings from private gardens and public landscape areas, such as parks and road- side greenery, as well as material from landscaping. Local drop-off collection points are made available for green waste. Green waste is often not very suitable for fermentation because of its low energy densities; however, it serves as a high-quality structural material used for treating digestate – added at a ratio of up to 20 per cent. On an average, more than 100 kg of biowaste and green waste are separately collected for every inhabitant. The colourful selection of biodegradable products in the waste segment also encompasses leftovers from large canteens, hotels or hospitals, expired products from the food sector and various leftovers from food production, such as slaughterhouse waste. The volume of such commercial waste is estimated to be around four million tonnes. Altogether, around 1,000 biogas plants generate energy from waste across Germany. The greatest potential that has not yet been exploited lies in biowaste bins and green waste. To date, a large share of these fractions is not used for energy recovery before being sent to the about 1,000 composting plants F e r m e n t i n g B i o l o g ic a l W a s t e : C i r cu l a r Ec o n o m y I n s t e a d o f W a s t e Di s p o s a l 29 30 to 40 per cent of municipal waste in Germany is organic waste. Photo: Bioconstruct GmbH Green waste is also well-suited to fermentation in biogas plants. Photo: Photo: Fachverband Biogas e.V. Energy crops such as grass silage are increasingly being fermented together with waste in the same plants. (above and right) About 120 plants across the nation generate biogas from biowaste and green waste collected through the public waste management system. A large number of these are composting plants with an upstream fermentation level that uses a cascade system. In the case of such combined cycle plants, after fermentation the digestate from biodegradable waste is composted. The quality of the compost does not change significantly: The nutrient content is slightly reduced because the nutrients dissolve in the process fluid. However, the salt content is lower, which increases crop tolerance. From a hygiene point of view, the substrate must undergo a particular heat treatment either during the fermentation or post-rotting stage at the composting plant. According to a study by the IFEU Institute Heidelberg, one can assume greater CO2 savings of up to 160 kg per tonne of waste with biowaste fermentation in comparison to pure composting. The capacity of such plants in Germany is currently around two million tonnes, which is still less than 30 per cent of the entire potential. In order to increase this percentage, an attractive special regulation on biodegradable waste was introduced in 2012 in the German Renewable Energy Sources Act (EEG), whereby post-rotting is a prerequisite for compost production. Since then, increased activities in waste fermentation have been observed. Moreover, the strict „principle of exclusive use“ was repealed in the EEG 2012. Energy crops, such as maize or grass silage can therefore be fermented along with waste in the same plant. This „co-fermentation“ allows for more flexibility during substrate selection Photo: Fachverband Biogas e. V. Photo: Catherine CLAVERY/Photolia Combination of fermentation and composting 30 B i o g a s : a n a ll - r o u n d e r Power output from waste materials Power yield kWhel / t wet weight 1,016 Methane output m3 /t fresh biomass 254 250 1,000 200 800 150 600 100 196 83 400 66 61 57 332 82 264 244 228 328 49 50 200 12 g Pi r slu ry Ca (d d rie t tl 72 17 18 r slu ry r sg aines) l ub ol pe er ra ill s s t w ith d g i D ins an ra it sg u r r le F til e s di 68 m as h o Fo d le f to ve Sp rs t en be Completing the cycle of materials Waste fermentation completes the cycle of materials, and competition with areas used for food production and pastureland is avoided. Biogas can substitute fossil fuels for the generation of electricity and heat over different bioenergy pathways. Alternatively, the gas can be upgraded to biomethane at natural gas quality and can be fed into the gas grid. The number of waste biogas plants with gas feed-in is growing continuously. After the most recent reform of the German EEG, the subsidy for electricity generated from biogas and biomethane was limited and its use as fuel in vehicles gained greater significance: Around one-third of the 900 natural gas e rm as h Po Po ta tr ul to pe u yd els ng rie /d d m an ur e im An bl al oo d Ol d br ea d filling stations in Germany can also fill biomethane, whereby the average mixing ratio is 15 per cent. The CO2 emissions from a vehicle running on pure biomethane gas produced from waste is around 90 per cent lower than that of a comparable fuel. As with the other forms of exploitation, the prerequisite for this is the separate collection of waste. If organic waste has to be treated along with residual waste, the only option that remains is incineration and ash disposal. However, this removes the biomass and therewith the vital nutrients from the biosphere – thus disturbing the cycle of materials. F e r m e n t i n g B i o l o g ic a l W a s t e : C i r cu l a r Ec o n o m y I n s t e a d o f W a s t e Di s p o s a l 31 Photo: shutterstock 48 Prerequisite for the energetic utilisation of organic waste is that it is collected separately. Photo: Thomas Saupe/ istockphoto In the biogas plant fermentation process, the mineral nutrients are preserved. They can also be used as a high-quality fertiliser in the field. Fermentation Products: A Valuable Asset Biogas provides electricity, heat, gas and fuel. The energy yield from biogas production is firmly embedded in its materials cycle: The substance that is used in the fermentation plants as biomass – whether in the form of liquid manure, energy crops or biowaste – later leaves the process as fermented substrate. These fermentation products prove to be of great significance on farmland, in gardens and on other surfaces used for farming, gardening and landscaping – and they are steadily becoming more appreciated. Photo: Tom Baerwald Fermented substrate is highly valued as a nutrient-rich and humus-forming fertiliser. In principle, fermentation products are applied in liquid form in areas close to farms. For many plant operators, this is the most simple and cost-efficient method of completing the materials cycle and getting the nutrients back into the fields. Based on years of experience, farmers are aware of the advantages of the nutritious and humus-forming properties of organic farm fertilisers. The nutrients are made readily available for the plants after fermentation, thus substituting conventional mineral fertilisers, which are produced using a great deal of energy. Suitable for fields, beds and balconies Liquid fermentation products can be turned into something much more valuable with the help of new treatment methods and techniques: if the liquid is separated from the solids and the solids are either composted or dried, which makes transportation more cost-efficient. The high percentage of phosphate in the solid fraction is particularly valuable. One can further improve the liquid phase so that concentrated nitrogenous liquid fertiliser is obtained at the end. Moreover, one can selectively separate the nutrients from the fermentation product. The product properties must be tailored to meet the needs of the customer in order to find new sales markets 32 B i o g a s : a n a ll - r o u n d e r The fermentation product can also be treated with substances such as bio-carbons to obtain a high-quality earth product. Various methods such as pyrolysis treatment and hydrothermal carbonization (HTC) can be used for production. However, these procedural techniques are in the very early stages of development. An important prerequisite for the economically viable treatment of fermentation products is their legal competitiveness. This is provided in Germany, among other things if the quality label „fermentation product“ or „fermentation product from renewable sources“ has been awarded by the Federal Compost Quality Assurance Organisation (Bundesgütegemeinschaft Kompost e.V., BGK). The German Biogas Association along with BGK established the Quality Assurance Organisation for Fermentation Products (GüteGemeinschaft Gärprodukte e.V., GGG) to advance this subject within a legally complex context. In addition to general quality assurance on the basis of uniform standards, it also handles new marketing strategies. New perspectives – creating new added value The treatment used to obtain valuable fermentation products provides future potentials which create new added value for the entire biogas industry. It could also provide a great alternative for biogas producers at sites with higher livestock density and fertiliser-related legislative bottlenecks despite the many logistic and technical challenges remaining in this segment. Drying fermentation products to obtain valuable fertilisers is a meaningful use of thermal energy produced at the biogas plant. There is, therefore, no doubt that the market demand for processed and dried fermentation products will continue to increase, although the legislative authority wants to limit the use of organic farm fertilisers of plant origin in the amendment to the Fertiliser Ordinance (DüV). The biogas industry is opposed to this objective. It should still be ensured that the fermentation products are fully available (in the sense of the completed cycle approach) for the cultivated plants instead of forcing increased reliance on mineral fertilisers; especially since fermentation products are in no way inferior to the traditional fertilisers in terms of their properties. Photos: Fachverband Biogas e. V. for the treated fermentation products, whether in horticulture or agriculture, as a replacement for peat in earthworks or in pellet form for use in beds and balconies by hobby gardeners. Fermentation products in pellet form It is in locations with high livestock densities in particular that the processing of high-quality fermentation products offers new economic perspectives. Photo: Bioconstruct GmbH In order to promote the marketing of fermentation products across national borders, the European Commission is currently preparing to include organic fertilisers in a Fertiliser Ordinance which applies across Europe. The market for processed and dried fermentation products is growing. F e r m e n t a t i o n P r o d uc t s : a V a l u a b l e A s s e t 33 Photos: Thomas Gaul Major Opportunities for Small Biogas Systems The cylinder-shaped digester requires little space and is therefore typical for small biogas plants, which are particularly suitable for agricultural operations with limited space. Small-scale biogas plants have great advantages. The benefits offered by biogas as a form of decentralised energy use are clearly shown by these systems. Here liquid and solid manure are more likely to be used as suitable substrates than maize or other energy crops. Thus, small biogas plants are particularly well suited for farms. Photo: Thomas Gaul Plant control One example is the biogas plant of Wilhelm Cülsen in Straelen on the Lower Rhine. The small biogas plant with an installed electric capacity of 75 kW went into operation at the end of 2012. It is operated to 85 per cent using slurry and manure. These are produced by the 140 dairy cows, which occupy the well ventilated cow stalls next to the plant. The remaining 15 per cent of the substrate input is made up of maize. Fertilisers from livestock farming Livestock farming in Germany generates around 200 million tonnes of excrement annually. This contains a large amount of energy that can be converted into environmentally friendly heat and power using biogas technology. And after fermentation, a high-quality natural fertiliser is left over, which provides a better availability of nutrients to field crops than the initial waste product of slurry. In 34 B i o g a s : a n a ll - r o u n d e r addition, the fermentation products lend themselves more readily to dosing and spreading. As farmer Cülsen has found, the fermentation product behaves almost like a mineral fertiliser. Not only is it used as a high-quality fertiliser on his own 75 ha of arable and pasture land, but it is also supplied to neighbouring farmers. In contrast to this, the fertilising effect of slurry was difficult to calculate and in wet conditions the nitrogen it contained was released more quickly and made its way into the groundwater as a nitrate. There is also a pleasant side effect: The fermentation products give off less odour than slurry, which is pleasing for the neighbours in a country as densely populated as Germany. Because of this, such locally adapted biogas systems are also regarded in a more friendly light by the general public than large plants. However, the investment cost per kilowatt of installed capacity is relatively higher than for larger systems. Photos: Thomas Gaul Pump technology, installed under the digester This is because, regardless of whether the biogas plant has an output capacity of 75 kW or 500 kW, the effort involved in planning, approval and operation varies much less than the power output. In particular, the statutory requirements, such as those prescribed for covering fermentation product storage tanks, increase the cost of construction. To compensate for the economic disadvantage, small plants get a higher basic feed-in tariff credit of 23.73 cents per kilowatt hour. This is higher than the legislature provides for other feedstocks and tariff credit classes. A precondition for this is that the level of slurry substrate used must be at least 80 per cent. The operator must demonstrate that the actual use of slurry does not fall below this level by keeping a daily plant log. If it does, however, then the claim for the higher credit is disallowed. This is because the objective of the scheme is to reduce the requirement for other substrates. As a result, a maximum of 20 per cent renewable raw materials such as maize may be used. There are, however, cattle farms that use up to 100 per cent slurry in their biogas plants. der cylinders. The advantage of this is that it is easier to find a location for the biogas plant within the often cramped conditions on a farm. The entire technology for pumping, stirring and feeding is then fitted under the digester (fermenter). The control and equipment room for the biogas plant is located in a container next to it. The operator can see the current status of the system on a display screen and can easily change the key parameters such as feeding. Designs vary At larger biogas plants, the stirred tank fermenter design is dominant and reminiscent of large slurry tanks. In contrast, other fermenter designs are to be found at small biogas plants such as tall, slen- It is important that the workload is not too high, as farms usually do not have any labourers other than the family members. And in the case of dairy farming, families have more than enough to do on the farm. However, most plant operators can manage on a good half hour every day for feeding and another half hour for the care and maintenance of the equipment. Construction costs Nevertheless, the breakthrough for small biogas plants in Germany has so far failed to materialise. As a result, around 600 fewer small plants have been built than would have been expected based on the actual data from livestock farming. This is mainly due to the high construction costs incurred due to compliance with statutory requirements. This economic disadvantage is not compensated for by the higher tariff credit. M a j o r Opp o r t u n i t i e s f o r Sm a l l B i o g a s S y s t e m s 35 Photo: Thomas Gaul Agricultural and energy farmer: Wilhem Cuelsen uses the potential of small biogas plants. CHP container Photo: BTA International GmbH The biogas plant at Zell am See (Austria) processes a multitude of substrates and was developed with the help of German know-how. From Germany all over the World – Biogas is an Export Hit No other country in Europe generates as much electricity from biogas as Germany: With over 26 billion kWh in 2013, the country was at the top of the charts ahead of the UK, Italy and the Netherlands. In recent years, these countries were joined by the Czech Republic as the most important export markets for the German biogas industry. However, after the Czech government completely cut subsidies, the country’s market is now stagnating. In contrast, France is likely to increase its attraction as an export market. Photo: Schmack Biogas GmbH (Viessmann Group) In 2014, 7,944 plants in Germany with a total capacity of 3,859 MW generated more than 26 billion kWh of electricity, firmly establishing the country’s position at the top of the international rankings. There is no other country which will even approach Germany’s results. Great Britain is one of the most important export markets. German engineering expertise was also used at the plant in Stoke Bardolph, Nottingham. The German biogas industry is in a correspondingly strong condition, with 41,000 people employed in the construction and operation of biogas plants in 2014 and an annual turnover of approximately 7.9 billion euros. However, the domestic market is actually shrinking and the amendment to the German Renewable Energy Sources Act passed in August 2014 (EEG 2014) will exacerbate this. All the more reason for the industry to look towards the export markets. 36 B i o g a s : a n a ll - r o u n d e r After all, the German biogas industry currently leads the way in terms of technology – not least because technological development here began much earlier than in many other countries. This goes from digester biology right through to cogeneration plants: A great deal of R&D has been invested in the former, especially with regards to energy crops, and the efficiency of the latter has increased dramatically in the past two decades. Mature thermal concepts are also a characteristic of the industry in Germany – such as the incorporation of biogas in bioenergy villages with a local heating system. The next step is now the integration of biogas into the electricity market. This could, for example, be through the provision of regulating power; Germany is far ahead of many other countries in this aspect, too. Photo: Schmack Biogas GmbH (Viessmann Group) Potential not yet fully unlocked in Europe Italian power consumption was already being met by biogas. The most important European export markets are still to be found in the UK and France. Then there are numerous countries in Europe where biogas still hardly plays a role although they have good potential, such as Romania, Slovakia and Hungary, as well as Estonia, Latvia, Lithuania or Ukraine. And even Finland, Sweden, Ireland and Poland are still far from exploiting all the opportunities they have. Since then additional plant construction has strongly decreased due to the cessation of subsidies, and the future currently looks very uncertain. All the same, biogas feed-in is now possible for the Italian grid and a few projects might become possible because of this. In Spain, however, the market has now come to a complete standstill. The markets in Central and Southern Europe are also interesting, in principle, but political interventions tend to change the playing field there very quickly. For example, Italy was a very attractive market in 2011: Out of the total installed capacity (410 MW) at the end of the year, a full 40 per cent had been erected during 2011 itself, and German plant constructors were very active in the country at that time. According to statistics from the EBA, at the end of 2012 there were 1,264 plants in Italy with a total capacity of 1,075 MW. The leader among the Italian regions is Lombardy, followed by Veneto and Piedmont. In 2012 the country’s total electricity production was some 8.7 billion kWh, which means that more than two per cent of France can be treated as an emerging market, with a French renewable energies act regulating the remuneration for biomethane since 24 November 2011. Since 2013, gas production has been recompensed at 9.018 to 12.858 cents per kWh with the tariff coupled to an inflation index. The remuneration period is 15 years from plant commissioning. However, in contrast to the UK, here the remuneration is dependent on the materials used and the processing capacity. Some plants are currently being developed in France, but the planning periods of three years or more are an obstacle to quick progress. Of the 557 plants in operation at the end of 2012, only 90 were agricultural biogas plants. Most plants use landfill gas. That is set to change: According to the „Plan Énergie méthanisation autonomie azote“, agricultural biogas plants F r o m G e r m a n y A l l O v e r t h e W o r l d – B i o g a s i s a n E x p o r t Hi t 37 Photo: Schmack Biogas GmbH (Viessmann Group) The 2.8 MW biogas plant in Tongeren, Belgium (above and below) uses maize silage and glycerine as well as agricultural and industrial waste materials. Photo: Tom Baerwald The German biogas industry covers the entire value chain for the technology and provides high-quality products, for example in the area of cogeneration plants. Photo: AEV Energy GmbH which exploit farm-produced fertilisers are to be expanded. In particular, this is foreseen as a way to achieve long-term reductions in nitrogen loads of agricultural land. It is planned to build 1,000 biogas plants by 2020. 1.5 MW plant in Bad Radkersburg, Austria. The biogas industry in the Alpine state is hoping for better feed-in conditions. In the Czech Republic, the market’s past dynamism has now become very weak. EBA figures for the end of 2012 show 481 operational plants in the country with a total of 363 MW electrical output. As in the previous year, 2012 saw the number of operational plants increase by some 50 per cent, but this development did not continue after the attractive funding programmes came to an end. In the UK, developments are set to continue: In June 2011 the government had already published a strategy paper on the expansion of biogas production. The Department for Environment, Food and Rural Affairs (Defra) is aiming for a total of approximately 100 large and 1,000 small new biogas plants to be built by 2020 – the latter will mainly be in agricultural enterprises. Since 1 April 2013, biomethane has been remunerated at the equivalent of 10.5 cents per kWh with a remuneration period of 20 years from plant commissioning and terms that are independent of the raw materials used. At the end of 2012 in the UK, 312 biogas plants were in operation with an in- 38 B i o g a s : a n a ll - r o u n d e r stalled capacity of 1,243 MW. Together they generated 6.4 billion kWh of electricity. Looking closely at those figures, it is clear that the plants built in the UK are mainly large-scale plants – many of them are utilising sewage sludge. Austria is hoping for better feed-in conditions Although Austria could also be a more attractive market, the country’s biogas industry is still waiting for better feedin conditions since current tariffs are hardly sufficient. Correspondingly, biogas plant development is generally stagnant: According to figures from the Austrian regulatory authority E-Control, in 2012 the country produced 554 million kWh from biogas, compared to 520 million in the previous year. As of the end of 2013, there were 380 plants with a total electrical power rating of 111 MW online. Compared with the total Austrian power consumption of some 60 billion kWh, biogas therefore represents a mere one per cent. Across the EU, there were some 13,000 biogas plants with a total capacity of 7,000 MW online at the end of 2012. Goals for further expansion have already been set: All EU members have agreed their National Renewable Energy Action Plans (NREAP) with plans to increase the usage of renewable energy Overseas focus on North America Photo: EnviTec Canada is also being watched closely by German manufacturers. Here, too, the regulations differ from province to province. Ontario, for example, has introduced tax concessions to bring about a desired increase in biogas usage. The potential in Canada is attractive: In Ontario alone, 250 MW (electrical) could be realised with biogas. German biogas companies are also increasingly active overseas: 541 KW plant in Stanley, US State of New York (above), and 3 MW plant in Saint Hyacinthe in the Canadian province of Quebec. Photo: Tom Baerwald Outside of Europe, German manufacturers have set their sights mainly on the USA. However, the country does not have a nationwide structure for remuneration yet. The feed-in tariffs are a matter for each federal state and, according to the industry, are often insufficient. Most of the agricultural plants in planning are smaller „farm-based“ units designed to save the farmers electricity and fuel. Nonetheless, the first large-scale biogas upgraders are already at the planning stage. In future, the USA wants to regulate biogas uniformly, but it is not yet clear how this will happen. The potential is huge, with the number of plants in future predicted to rise to 11,000 from the current figure of more than 2,000 – comprising some 200 agricultural, 700 landfill gas and 1,200 sewage gas plants. Photo: Lipp GmbH sources – in some cases very significantly. So German companies in the biogas industry can look forward to further attractive European export markets as soon as the countries concerned take these plans and transform them into political and regulatory reality. F r o m G e r m a n y A l l O v e r t h e W o r l d – B i o g a s i s a n E x p o r t Hi t 39 Photo: Bioconstruct GmbH The Dahlenburg biogas plant (Lower Saxony, Germany) with direct waste heat utilisation, among other things for nearby greenhouses, in order to use heat that would otherwise be lost. Biogas Helps Climate Protection Not only does Biogas help to provide security of energy supply, it also makes an important contribution to climate protection. Next to emissions from combustion of fossil fuels and energy sources as well as from industry, a large proportion of emissions comes from agriculture. In 2012, around 53 per cent of methane emissions and about 77 per cent of nitrous oxide emissions came from agriculture. The fermentation of slurry and the subsequent energy recovery from the biogas produced thus contributes actively to climate protection. Biogas could therefore become a problem solver for regions with intensive livestock farming such as Brittany in France: There manure from intensive pig farming is discharged into the sea, where the nitrate leads to excessive growth of green algae. These are then washed up on the beaches and form ammonia and hydrogen sulphide through decomposition. If the slurry is fermented in a biogas plant, the remaining fermentation product can be separated into a liquid and a solid phase. This concentrated fertiliser can then be used in regions where soil nutrients are needed. The dependence of agriculture on mineral fertilisers is reduced through the use of organic nitrogen from biogas production. 40 B i o g a s : a n a ll - r o u n d e r A variety of substrates The suppliers of biogas technology, which mostly come from Germany, have to adjust their technology to the wide variety of substrate inputs. Because a tariff credit is not given for the use of renewable resources in most countries, the use of energy crops hardly plays a role. An example of the required flexibility is illustrated by the biogas plant at Ribeauvillé in Alsace, France. With an installed capacity of 1,415 kW, it is currently the largest biogas plant in France. It mainly utilises cattle slurry and waste from the food industry, which are still largely supplied free of charge or even against payment to biogas plant operators in France. The separation and recycling of waste from commercial kitchens for works canteens and schools are now mandatory. Power and heat from biogas Power and heat from fossil-fuel sources Greenhouse gas emissions of a 190 kW biogas plant compared to a fossil-fuel power plant with the same capacity 200 t CO 2 Substrate provision 120 t CO 2 1,000 t CO 2 Consumables/fuel and energy consumption 50 t CO 2 Plant technology and construction 50 t CO 2 Fossil electricity Diffuse emissions 35 t CO 100 t CO Methane slip Fossil heat 2 2 It is important for climate protection reasons that high standards of emission minimisation are also observed in the treatment of organic waste, especially for the greenhouse gases methane and nitrous oxide. This is currently not always the case with simple organic and green waste composting, as this releases carbon dioxide. In addition, mechanical treatment and aeration of the material requires a high-energy input. Experts argue in favour of fermenting organic waste in an anaerobic digestion plant using state-of-the-art technology and composting the digestate. In addition to the production of biogas, this so-called cascade utilisation allows the diverse positive effects of adding compost to agricultural soils to be exploited. Export opportunities for waste utilisation The problems of waste disposal, in particular, are spurring the demand for German biogas technology. According to the Renewable Energy Export Initiative of the Federal Ministry for Economic Affairs and Energy, market opportunities are arising in Southern Europe and overseas. China is pursuing ambitious goals for the expansion and use of biogas: By the end of 2015, it is projected that there will be approxi mately 10 million consumers of biogas for household use as well as 70,000 small and 8,000 medium and large biogas projects. The demand for environmentally friendly energy will increase, particularly in developing and emerging countries. Burning solid fuels in the home using a fireplace, which is damaging to health and to the environment, is intended to be phased out. The export of biogas technology will therefore be promoted: provided, however, that organic waste and sewage are used as a substrate and not specially grown energy crops. In Tanzania, for example, an existing biogas plant for waste from sisal production has been expanded to include a pilot biogas plant as well as a training and education centre. This should promote the wider use of biogas technology in Africa through knowledge transfer, giving impetus for further projects. B i o g a s H e l p s C l im a t e P r o t e c t i o n 41 Photo: arturbo/istockphoto The still partially packaged food stuffs are unpacked at a separate facility and cleaned. The operators provide heating for a casino and a hotel and for an adjacent housing development. With organic waste, sanitising is mandatory to prevent the spread of microorganisms. Because of this, sanitisation units are almost standard at French plants. As a result, the systems are run in the thermophilic range with a temperature of around 50 ° C in the digester. Total emissions: 1,100 t CO2 In comparison with power generated from fossil fuels, a 500 KW biogas plant prevents as much climate-damaging greenhouse gases in one year as are produced by 1,100 cars each travelling 15,000 km per year. Photo: CreativeNature_nl/istockphoto Total emissions: 455 t CO2 Controlled fermentation of slurry or compostable waste prevents the discharge of climate-damaging gases such as methane, which contributes significantly more to the greenhouse effect than CO2. Photo: iStockphoto/© Selahattin Bayram 42 B i o g a s : a n a ll - r o u n d e r 43 ompanie Overview Companies and brands presented at a glance (in order of appearance) page 48 page 48 page 49 page 50 page 51 page 51 page 52 page 52 Internaonal page 53 page 54 page 54 page 55 page 56 page 57 page 57 page 58 page 59 page 59 page 60 page 61 page 62 page 64 page 64 FINSTERWALDER UMWELTTECHNIK page 61 page 65 page 66 page 66 page 67 page 68 page 69 page 70 page 71 WASTE WATER Solutions companies 44 full-Service provider components & operator, Pl anner Research & Substrate & Advisor development page 71 page 72 page 72 page 73 page 74 page 75 page 76 page 77 page 77 page 77 page 78 page 78 page 79 page 79 page 80 page 81 page 81 page 82 page 82 page 83 page 84 page 85 page 85 page 86 page 87 page 87 page 88 page 88 page 89 page 89 page 90 full-Service provider components & operator, Pl anner Research & Substrate & Advisor development 45 COMPANIE S Who’s Who? Companies and their business segments at a glance (in alphabetical order) page System provider 2G Energy AG 48 Agraferm Technologies AG 49 agriKomp GmbH 50 AGROTEL GmbH 48 APROVIS Energy Systems GmbH 51 Awite Bioenergie GmbH 51 BAG Budissa Agroservice GmbH 52 Baur Folien GmbH 52 BayWa AG 53 BDI – BioEnergy International AG 54 BioConstruct GmbH 55 BIOFerm GmbH (Viessmann Group) 89 BMF HAASE Energietechnik GmbH 56 BTA International GmbH 54 BTS Biogas Srl/GmbH 57 dbds Deutsche Biogas Dach-Systeme GmbH 57 DCL Europe GmbH 58 Franz Eisele und Söhne GmbH & Co. KG 60 EnvironTec GmbH 59 EnviTec Biogas AG 59 Evonik Industries AG 62 FF-Maschinenbau GmbH 61 Finsterwalder Umwelttechnik GmbH & Co. KG 61 Fliegl Agrartechnik GmbH 64 Green Energy Max Zintl GmbH 65 Green Protection GmbH 64 HUBER SE 66 ibes Ingenieurbüro Dr. Eisenhardt Sonneberg 67 LANXESS Deutschland GmbH 68 Lindner-Recyclingtech 66 LIPP GmbH 69 Mehrer Compression GmbH 70 companies 46 Provider of components and substrates, supplier Operator, planner, advisor Research and Development full-Service provider components & operator, Pl anner Research & Substrate & Advisor development Major business segment page System provider MethaPOWER Biogas GmbH 71 MTU Onsite Energy GmbH 71 NETZSCH Pumpen & Systeme GmbH 72 NORTH-TEC Maschinenbau GmbH 73 ÖKOBIT GmbH 74 OWS 75 FRITZ PAULMICHL GMBH 72 Pentair Haffmans 76 Pro2 Anlagentechnik GmbH 77 PRONOVA Analysentechnik GmbH & Co. KG 77 PURAC PUREGAS 78 Schmack Biogas GmbH (Viessmann Group) Schmack Carbotech GmbH (Viessmann Group) Provider of components and substrates, supplier Further business segment Operator, planner, advisor Research and Development 88 89 SCHNELL Motoren AG 78 seepex GmbH 79 SEVA Energie AG 77 Hermann Sewerin GmbH 80 SILOKING Mayer Maschinenbaugesellschaft mbH 79 SILOXA Engineering AG 81 streisal GmbH 81 Suma Rührtechnik GmbH 82 THÖNI INDUSTRIEBETRIEBE GMBH 83 Tietjen Verfahrenstechnik GmbH 82 TÜV NORD GROUP 84 UGN-Umwelttechnik GmbH 85 UTS Biogastechnik GmbH 86 Viessmann Group 88 Viessmann Werke GmbH & Co. KG (Viessmann Group) 88 WELTEC BIOPOWER GmbH 85 Wolf System GmbH 87 Wulf Johannsen KG GmbH & Co. 87 Xylem Water Solutions 90 full-Service provider components & operator, Pl anner Research & Substrate & Advisor development 47 COMPANIE S 2G Energy AG Optimisation of the entire energy generation process 2G ENERGY AG Benzstraße 3 48619 Heek Germany Phone +49 (0)2568 9347-0 Fa x 2G has established itself as one of the world’s leading manufacturers of CHP units and aims to play an active part in the global energy revolution. By producing modules for distributed power systems that use combined heat and power, 2G makes an active contribution to the implementation of global political climate goals and helps its customers beyond this, by saving them money with their energy supply. The product portfolio ranges from systems with electrical power outputs of 20 kW for domestic use to large plants with capacities of 4,000 kW that generate electricity and supply heat for entire communities. Besides its biogas operated CHP plants 2G also offers a broad range of various products for applications with natural gas, sewage gas, landfill gas or LFG methane. +49 (0)2568 9347-15 EMail [email protected] Web www.2-g.com Y e a r fo u n d e d 1995 Worldwide, 2G has thousands of satisfied customers and partners who are already convinced by the performance and quality of 2G products. 2G plants have been successfully installed in more than 25 countries. S ALE S V O LU M E € 123.13 million (2013) Emp l oy e e s 553 2G container solution in Latvia AGROTEL GmbH Manufacture, delivery and installation of gas storage and concrete protection solutions AGROTEL GmbH Gewerbegebiet Har tham 9 94152 Neuhaus (Inn) Germany Phone +49 (0)8503 91499-0 Fa x +49 (0)8503 91499-33 EMail [email protected] Renewable energies, including energy from biogas, play an important role when it comes to the prospects for the future. AGROTEL manufactures a variety of products designed to meet the needs associated with these prospects. Among the products is a double-membrane gas holder for digesters and postdigestion tanks – a functional component of biogas plants. The combination of high-quality membranes and V4A stainless steel offers superior quality for air-inflated roof structures with integrated gas holders. Web www.agrotel.eu Y e a r fo u n d e d 1987 Emp l oy e e s 55 companies Despite advanced concrete technology, the surfaces in concrete digesters and post-digestion tanks that are exposed to methane gas and hydrogen sulphide require lasting protection. To improve resistance against corrosive acid attacks in closed concrete tanks, 48 Biogas plant in Brandis, Germany AGROTEL has designed and developed the extremely stable “Wiretarp” concrete protection foil. This patented concrete protector offers a means of ensuring optimum and long-lasting protection for concrete structures within biogas plants. full-Service provider components & operator, Pl anner Research & Substrate & Advisor development Agraferm Technologies AG Added value through efficient biogas technology and individual repowering systems Biogas plant in Taverham (UK) Our philosophy: high-quality technology for a diverse mix of substrates Holleben biogas plant – one of the most modern biomethane plants in Europe Agraferm is one of the leading fullservice providers for agricultural and industrial biogas and biomethane plants. Our range of services covers the design, project management and building of AD plants as well as all the related technical and biological services and of course repowering. Furthermore, Agraferm’s numerous completed projects have proven that slurry-free digestion is possible and, due to the wide range of possible feedstocks, operators are free from a dependence on maize. In a market where feedstock is becoming scarcer and regulations regarding types of feedstock stricter, Agraferm customers can use feedstock that other plants cannot use or can only make limited use of. The advantages of Agraferm technology: • a wider range of possible feedstock • full gas yield from smaller container volume (2 MWel from 2 containers) • efficient processing of energy plants such as maize, grass or whole grain plant silage • efficient processing of agricultural waste and by-products from the food industry Agraferm Technologies AG Färberstraße 7 85276 Pfaf fenhofen Germany Agraferm does not see repowering as simply replacing or up-grading individual components. For Agraferm, repowering means a complete re-evaluation and re-design of the entire system in the plant. phone +49 (0)8441 8086-100 Fa x +49 (0)8441 8086-190 Advantages of Agraferm repowering technology: • shortening the mixing time • more yield from the existing plant • optimising the gas yield from smaller plants • reducing the plant’s energy consumption • new options for feedstock mix EMail [email protected] Web www.agraferm.com Y EA R F O UN D E D 2004 E M P L O Y EE S 70 Agraferm Technologies operates internationally, especially in England, Italy, Slovakia and the Czech Republic. In Great Britain, Agraferm Technologies is one of the market leaders in the biogas industry. full-Service provider components & operator, Pl anner Research & Substrate & Advisor development 49 COMPANIE S Biogas plant at the joint bionergy villages W ollbrandshausen and Krebek (Germany) agriKomp GmbH One of the top three* AGRIKOMP GMBH Energiepark 2 91732 Merkendor f Germany P H O NE +49 (0)9826 659 59-0 Fa x +49 (0)9826 659 59-10 EMail [email protected] Web www.agriKomp.de Y EA R F O UN D E D 2000 Emp l oy e e s 500 Everything under one roof … … This has been a guiding principle of agriKomp right up to the present day. Having implemented more than 800 system projects around the world and with about 500 employees, the globally active Bavaria-based company is a leading supplier in the biogas industry. The complete systems manufacturer has a strong focus on the fermentation of slurry and manure and covers all fields of efficient biogas technology: • consulting, design and planning; construction, commissioning, technical and biological service; • manufacture of CHP plants; • design and build of district heating/gas networks; • repowering and expansion of existing systems; • in-house research and development. • plant All the essential components of a biogas plant are developed and manufactured under the combined resources of the agriKomp Group. This guarantees absolute reliability and consistently excellent quality. The innovative company has set international bench- companies 50 marks with its tried-and-tested key components such as the (Biolene ®) flexible gas storage tank, the (Paddelgigant ®) agitator for renewable raw materials and the (Vielfraß®) robust feeding system. Groundbreaking plant systems such as the first mobile “Güllewerk” (slurry factory) biogas plant are evidence of the illustrious record of the agriKomp research engineering expertise. The international agriKomp Group The company, which was established in the mid-90s, is successfully represented by its own subsidiaries and partners in Germany, Great Britain, Ireland, France, Switzerland, Denmark, Italy, the Czech Republic, Poland and Slovakia. Worldwide activities extend to projects in Canada, Kenya, Russia and Romania. * A recent survey by the German Agricultural Society revealed that agriKomp is among the top three companies in the renewable energy industry in Germany. full-Service provider components & operator, Pl anner Research & Substrate & Advisor development APROVIS Energy Systems GmbH Efficiency in CHP applications. From the experts in heat transfer In the year 2000, a small company with a big goal was established: to make the best possible use of the energy from CHP plants. To achieve this, APROVIS Energy Systems developed state-ofthe-art, highly efficient solutions for gas treatment and waste heat recovery, which can be integrated into any heating concept. Since then, that small company has become a huge success. APROVIS Energy Systems now has an impressive range of customers at both national and international level. We are looking forward to welcoming your business soon. The basis of our success Quality Our products are based on state-of-theart technology and premium-quality materials; but it is our employees’ expert knowledge that ensures the best results. Reliability Years of experience and excellent service pay off. For us, this means a strong relationship with all major engine manufacturers, German market leadership and an export rate of over 60%. Innovation We do our best for both current and future projects. We work closely with our customers at all times, as we believe progress is only real if you share it. APROVIS Energy Systems GmbH Ornbauer Straße 10 91746 Weidenbach Germany P H O NE +49 (0)9826 6583-0 FAX +49 (0)9826 6583-110 EMail [email protected] Web www.aprovis-gmbh.de Y EA R F O UN D E D 2000 E M P L O Y EE S 100 For more information visit www.aprovis-gmbh.de Gas cooling and cleaning unit Awite Bioenergie GmbH AwiFLEX Cool+ XL gas analysis system It’s time to take control Measuring is essential at most bio-technological plants. The more precisely and continuously measurements are carried out, the more they prove to be time and cost-saving factors. Comprehensive process control and gas analysis are elementary factors in the smooth process flow and economic success of your plant. Gas analysis and automation from a single source process monitoring and a plant control system that is easy to handle. Automation has become essential to meet such requirements. AwiControl enables complete control of your biogas plant at the highest level of operational safety and low expenditure on personnel. Full renunciation of software license fees is a natural course of action for us, as well as consistent realisation based on open-source products. Phone +49 (0)8761 72162-0 FAX +49 (0)8761 72162-11 EMail [email protected] Web www.awite.com Y e a r fo u n d e d 2001 Satisfaction comes automatically Every biogas plant is an extremely sensitive system, which requires reliable full-Service provider components & operator, Pl anner Research & Substrate & Advisor development Awite Bioenergie GmbH Grünseiboldsdor fer Weg 5 85416 Langenbach Germany Emp l oy e e s 33 AwiControl automation solution 51 COMPANIE S BAG Budissa Agroservice GmbH Silage conservation in plastic tube bags – minimum losses, flexible and highly efficient BAG Budissa Agroservice Gesellschaft mbH Birnenallee 10 OT Kleinbautzen 02694 Malschwitz Germany P H O NE +49 (0)35932 356 30 FAX +49 (0)35932 356 56 EMail [email protected] Web www.budissa-bag.de In 1993, BAG Budissa Agroservice GmbH revived the practice of ensiling into large plastic bags, which was first known in Germany as the Eberhardt silo press in the 1960s. Silage conserved in silo bags is very well suited to fermentation, has a long storage life and lower ensilage losses. Different bag lengths and diameters ensure a fitting solution for farms of all sizes. Depending on requirements, this flexible, efficient process can support tonnages from 1,000 to over 30,000 t per year. Different materials can be stored including grass and maize silage, whole plant silage, high-moisture grain and industrial byproducts (such as pressed pulp or malt spent grains). capacity utilisation. A government research project has proven that using silo bags for storage is an ecologically sound practice. However, sufficient storage space is needed. BAG Budissa Agroservice GmbH, based in Saxony, offers a wide range of products and expert advice drawing on 20 years of experience working with more than 20 countries, within and outside Europe, and cooperating closely with scientific institutions in different locations. Y EA R F O UN D E D 1994 E M P L O Y EE S 25 This process has a payback period of two to five years, as it does not require any construction work or machine Silo press RT 8000 Baur Folien GmbH Supply and assembly of biogas storage systems and tank covers Baur Folien GmbH Gewerbestraße 6 87787 Wolfer tschwenden Germany P H O NE +49 (0)8334 25 99 19-0 Air-supported cover with integrated gas storage system, conical design Air-supported cover with integrated gas storage system, domeshaped design Baur Folien was founded by Peter Baur and qualified engineer Dipl.-Ing. (FH) Josef Baur in 1991. Since being established, it has supplied the biogas industry with components and fulfilled the demands of its clients in terms of products, quality, service and logistics. Its production range includes a wide variety of membranes processed using modern machines and materials. The company manufactures leakage control systems, pillow-type and cylindrical biogas storage systems and single or double membrane tank covers with or without integrated biogas storage. The company’s product portfolio also features an extensive range of accessories. Baur Folien supplies and installs these components for its long-established customer base, which includes renowned plant manufacturers and operators. Fa x +49 (0)8334 25 99 19-19 EMail [email protected] Web www.baur-folien.de y e a r fo u n d e d 1991 e m l oy e e s 35 companies 52 full-Service provider components & operator, Pl anner Research & Substrate & Advisor development Your partner along the biogas process chain Our quality brands: Plast BayWa AG Your partner along the biogas process chain BayWa is an international trade and services group with core competencies in the fields of agriculture, energy and building materials and currently employs around 17,000 people worldwide. In the renewable energy business sector, the BayWa Group is now considered one of Europe’s most significant project developers in the biogas, solar and wind power markets. With firm regional roots, Baywa has been a strong partner for more than 90 years. We are committed to meeting customer needs along the whole biogas process chain: Biomass production: BayWa provides a full range of high-quality crop inputs along with a professional agronomic advisory service. One-sided crop rotation or monocultures can create many problems and we therefore place great importance on high-performing seed mixtures and varieties. Planterra® offers you the best seed solutions – the right seed in the right place. Substrate procurement and trade: We supply biogas plants with substrates such as silage (maize, grass, WPS), biogas crops and energy meals. Substrate storage: To achieve optimum substrate quality, we offer a wide variety of solutions ranging from silo foils to silo bags. The brand InnoPlast® stands for top-quality products for covering and storing silage. Process optimisation: With InnoCon® biogas additives, we offer you high-concentration enzymes and trace minerals that ensure effective process optimisation. Our product range also includes highly efficient desulphurisation and fast-action antifoaming agents. Agricultural technology and maintenance: BayWa Stall+Systeme offers a wide range of specific solutions for the construction, renovation and equipping of farm buildings. We not only support you through the planning, construction and completion phases but also provide ongoing service and maintenance. BayWa AG Arabellastraße 4 81925 München Germany Phone +49 (0)89 9222-3304 Fa x +49 (0)89 9222-3302 EMail [email protected] Web www.baywa.de Y e a r fo u n d e d 1923 Emp l oy e e s 17,000 Lubrication: The TECTROL Product Service Package offers CHP system ope rators an ideal combination of premium performance engine oils and continuous oil analysis. TECTROL METHAFLEXX engine oils guarantee maximum reliability, safety and efficiency. full-Service provider components & operator, Pl anner Research & Substrate & Advisor development 53 COMPANIE S BDI – BioEnergy International AG BDI BioGas: The solution for industrial and municipal waste BDI – BioEnergy International AG Parkring 18 8074 Grambach/Graz Austria Phone +43 (0)316 4009-100 Fa x +43 (0)316 4009-110 EMail [email protected] Web www.bdi-bioenergy.com Y e a r fo u n d e d 1996 From waste to value: BDI develops technologies for producing energy from waste and by-products while ensuring maximum preservation of resources at the same time! The many years’ experience in the planning and construction of industrial facilities enables BDI to provide customers with tailor-made plants that fulfill individual requirements. BDI provides customised, turnkey BioGas-facilities with in-house developed technologies of the highest quality. From R&D, engineering and construction all the way through to after-sales services, we operate as a true One-Stop-Shop. All BioGas plants realised by BDI provide a high level of process safety and feature the highest levels of profitability and innovative power. The progressive BDI technology is specially designed for the production of BioGas from a wide range of industrial and municipal waste products. Emp l oy e e s 110 Industrial BioGas production, distinguished by maximum profitability and productivity BTA International GmbH BTA® Process – biogas & compost from organic waste Internaonal BTA International GmbH Färberstraße 7 85276 Pfaf fenhofen an der Ilm Germany Phone +49 (0)8441 8086-600 Fa x +49 (0)8441 8086-690 EMail [email protected] Web www.bta-international.de Y e a r fo u n d e d 1984 2006 as BTA GmbH & Co. KG re-foundation If you are looking for high biogas yield and a possibility to produce quality digestate or compost, the BTA® Process is your solution. Due to its high flexibility for substrates with a wide range of TS content as well as different impurities contents, and its high efficiency in separating these contraries before anaerobic digestion, the BTA® Process has multiple applications: • MBT plants for municipal solid waste • methanation plants for organic waste, food waste and/or commercial waste • co-digestion with agricultural substrates • co-digestion with sewage sludge The BTA® Process ensures operational security, maximum capture of the digestible organic matter, clean rejects and a digestate contrary level below the requirements for superior compost. With 30 years of experience and over 40 plants worldwide, BTA International GmbH is your professional partner for the wet mechanical pre-treatment and wet anaerobic digestion of practically all types of organic waste. S ALE S V O LU M E approx. € 9 million Emp l oy e e s 30 companies Biowaste methanation plant in Kirchstockach, Germany, in operation since 1997 54 full-Service provider components & operator, Pl anner Research & Substrate & Advisor development Biogas pretreatment and CHP unit A view of BioConstruct’s headquarters and the company’s own anaerobic digestion plant Managing directors Mehmet Önal, Henrik Borgmeyer, Matthias Kief and Kai Roth BioConstruct GmbH In line with our slogan “Intelligent biogas plants”, BioConstruct has been constructing turnkey biogas systems since 2001 Since its incorporation, BioConstruct has successfully commissioned more than 200 plants with an installed capacity of more than 100 MW. Our portfolio of realised projects includes: • agricultural plants processing energy crops or co-fermentation plants with liquid or solid manure • plants with difficult/more complex input materials such as > 90% grass silage, dung, slaughterhouse waste and food waste • biogas plants with biomethane upgrading and gas-to-grid technology • high-end industrial biogas plants up to 5.1 MW • high-efficiency plants with heat usages for industry, local heating distribution companies and greenhouses as well as for electricity providers • industrial waste fermentation systems BioConstruct has international experience in the realisation of projects in Italy, the Czech Republic, the Netherlands, Turkey, Estonia, Latvia and the UK. Only materials able to withstand the strain of continuous operation are used in our plants. BioConstruct technology meets the most rigorous standards and is permanently monitored by a fault management system that is continuously improving due to our broad experience in the operation of 20 biogas plants, most of which are majority-owned by BioConstruct. The plants are meticulously planned, exceedingly low-maintenance and furnish the highest yields as a result. For BioConstruct, turnkey plant construction means performing – profitability forecasts, individual plant designing, obtaining necessary approvals, service and maintenance and even operation of the plants. BioConstruct GmbH Wellingstraße 66 49328 Melle Germany P H O NE +49 (0)5226 59 32-0 Fa x +49 (0)5226 59 32-11 EMail [email protected] Web www.bioconstruct.de Y EA R F O UN D E D 2001 S ALE S V O LU M E € 75 million In a nutshell, BioConstruct’s involvement does not end with the handover of a plant. BioConstruct sees itself as a partner, not only during the construction phase but rather throughout the whole lifetime of a biogas plant, and supports clients in matters pertaining to the biological process, technology and financial ways of optimising the plants. full-Service provider components & operator, Pl anner Research & Substrate & Advisor development 55 E M P L O Y EE S 90 COMPANIE S BMF HAASE Flare BMF HAASE Biogas Upgrader BMF HAASE Energietechnik GmbH Cutting-edge components ensure optimum utilisation of technical equipment BMF HAASE Energietechnik GmbH Oderstraße 76 24539 Neumünster Germany P H O NE +49 (0)4321 878-0 Fa x +49 (0)4321 878-29 EMail [email protected] Web www.bmf-haase.de Y EA R F O UN D E D 2012 E M P L O Y EE S 110 A new chapter has begun. Due to the complete takeover by the BMF Group based in Büren (North Rhine-Westphalia) and a corresponding name change, BMF HAASE Energietechnik GmbH is facing a bright future. Industrial expertise and financial stability complement the existing industry know-how. Flares Flares from BMF HAASE provide reliable, environmentally friendly emergency disposal of sewage and landfill gas as well as raw biogas and biomethane. Excess gas is burned off automatically in the case of the unplanned shutdown of gas engines or upgrading facilities. The BMF Group, consisting of more than 800 employees and over 120 engineers, stands for creativity, system security and quality. Under the motto “technology with ideas”, the group’s companies provide new and intelligent technological solutions. Long-standing relationships with reputable customers in the automotive industry (including VW, Audi, Daimler and BMW), the machine tool industry (e. g. DMG Mori Seiki, formerly Gildemeister) and the computer industry (e. g. Wincor Nixdorf) form the history of this ownermanaged company. CHP The Container-CHP for the conversion of biogas, landfill gas and natural gas into electrical energy by BMF HA ASE includes gas engines and generators as well as control systems and process visualisation. They can also be optionally equipped with gas treatment, a gas compressor, continuous gas analysis, heat extraction or a condensate separator. Utmost efficiency BMF HA ASE Energietechnik GmbH supplies industrial quality and innovations in the areas of gas processing, combined heat and power generation, and water treatment. companies 56 Biogas Upgrader The BMF HA ASE Biogas Upgrader refines biogas to biomethane by organic-physical scrubbing. This particularly efficient method is characterised by low methane emissions and low power consumption. Service full-Service provider components & operator, Pl anner Research & Substrate & Advisor development BTS Biogas Srl/GmbH The right choice! Innovation is our passion! The new BTS Biogas Technical Module: integrated plug & produce management system BTS Biogas designs, installs, constructs and operates biogas power plants. Numerous experiences have contributed to the development of unique technologies in the biogas world – such as the BIOaccelerator or BIOdry – which increase and optimise the productivity and profitability of our power plants. BTS Biogas also offers biological support and consulting and utilises some of its resources for developing suitable software to computerise management of the plants. It also has a laboratory in Porto Mantovano (Italy) that is completely dedicated to the biogas world: METANlab. It is equipped with the most sophisticated instruments, which allows the company to perform all kinds of analyses. BTS Biogas Srl/GmbH S. Lorenzo Street 34 39031 Brunico/Bruneck Italy P H O NE +39 0474 370119 Our plants are monitored on a daily basis by the BTS Biogas technical team and the dedicated biological support staff; their aim is to optimise seeding, harvesting, ensilage, drawing and the biological management of the biogas plant. EMail [email protected] Web www.bts-biogas.com Y EA R F O UN D E D 2008 E M P L O Y EE S 100 BTS Biogas has built more than 176 plants all over Europe with more than 136 MW of installed electric power. dbds Deutsche Biogas Dach-Systeme GmbH roof systems for biogas plants dbds stands for absolute precision, efficiency and the greatest possible customer orientation. All dbds products have been developed and implemented in compliance with current laws, directives, technical standards and recommendations. These include the structural analysis of our roofs according to EN 1991-1 considering snow and wind loads, as well as their adaptation for all tank systems. All materials used by dbds have been developed and produced especially for use with biogas plants. The membranes are flame retardant according to DIN 4102 and EN 13501, methane permeability is significantly below the stan dard limits; the industrially manufactured high-frequency welding seams are up to 8 cm wide. dbds Deutsche Biogas Dach-Systeme GmbH Am Burgholz 15 52372 Kreuzau Germany P H O NE +49 (0)2421 59183-0 Our services and products comprise: Fa x +49 (0)2421 59183-59 • single and double-shell roof systems up to Ø 40 m • individual customer solutions for gas storage volume, roof design, roof segments, anchoring systems, substructures • services installation, repair and maintenance • technical components EMail [email protected] Web www.dbds-gmbh.de y e a r fo u n d e d 2011 E M P L O Y EE S 12 Gas treatment system with 18 mbar processing pressure full-Service provider components & operator, Pl anner Research & Substrate & Advisor development 57 COMPANIE S DCL catalyst element in production DCL Mine-X®, Quick-Lid ® catalytic converters and Metalcor® catalyst elements DCL’s Siloxane Removal Technology (SRT) System DCL Europe GmbH The local expertise you deserve from a global leader in emissions control solutions DCL Europe GmbH Im Haindell 1 65843 Sulzbach am Taunus Germany Phone +49 (0)6196 500225 Fa x +49 (0)5149 207483 EMail [email protected] Web www.dcl-europe.com companies DCL is a manufacturer and retailer of emissions control technology with over 28 years of experience. DCL’s vertically integrated approach to product development provides highly customised solutions, shorter lead times and greater quality control – which translates into outstanding performance, longer product life and lower cost of ownership for our customers. The DCL Europe GmbH sales and service subsidiary is dedicated to providing the highest level of customer service including fast and expert product and sales support. Our technically trained sales professionals work closely with our engineering and manufacturing teams and are strategically located across Europe to provide local emissions regulation expertise. DCL’s products for biogas, sewage and landfill gas applications include replacement catalyst elements, catalytic converters, sound attenuation, heat recovery and gas pre-treatment solutions such as siloxane removal. Our MINE-X®, QUICK-LID® and METALCOR® brands are internationally recognised for quality and reliability. 58 DCL’s products are tailored for your unique needs and specifications to ensure you get the optimal solution to achieve your emissions or toxin removal targets. Our product designs also facilitate the replacement of catalyst elements, which greatly reduces maintenance costs, and our warehouse service ensures fast delivery of replacement parts for many standard catalyst sizes. DCL technicians are also available for onsite visits to conduct measurements and emissions analyses, and our local partners can provide catalyst cleaning and recycling. DCL is committed to providing exceptional customer service and continuously developing and improving our products to ensure we meet and exceed our customers’ expectations. full-Service provider components & operator, Pl anner Research & Substrate & Advisor development EnvironTec GmbH Success through innovative corporate philosophy and trend-setting products EnvironTec specialises in the design, supply and installation of gas treatment systems. In addition to equipping anaerobic digesters, we are active in the fields of gas purification, gas storage and the utilisation of gas – all in one. As a company with many years of experience and a motivated workforce, we work for local authorities and companies engaged in plant engineering and construction, as well as for private investors. We specialise in the selling and marketing of high-quality components for gas equipment used at waste water treatment and biogas plants at advantageous prices for optimum benefit to our customers. We are primarily a manufacturer of systems and, if required, we are able to supply turn-key facilities to any part of the world. In order to develop new markets, we are continuously searching for new partners who wish to benefit from the advantages and surpluses for themselves and their customers. EnvironTec GmbH Schilfweg 1 6972 Fussach Austria P H O NE +43 (0)5578 77005 Fa x +43 (0)5578 77005-300 EMail [email protected] Web www.environtec.at y e a r fo u n d e d 2005 Algeria, pressureless gas holder TGZ 6,800 m3 EnviTec Biogas AG Quality biogas plant construction by EnviTec Biogas EnviTec Biogas AG Industriering 10a 49393 Lohne Germany P H O NE +49 (0)4442 8016-8100 Fa x +49 (0)4442 8016-98100 EnviThan gas upgrading system with membrane technology EnviTec plants set industry standards EMail Politicians worldwide recognise the advantages of biogas as a renewable, decentralised energy source, and are supporting plant operators and investors. When exploring new markets, we combine our vast experience in plant construction and operation with the knowledge of regional partners. We provide services covering the entire value chain of biogas and biomethane production, including planning, turn- key construction and commissioning of biogas plants and services. EnviTec plants generate clean energy from organic waste, slurry, manure or renewable raw materials. Our clients benefit from qualified specialist support 24 hours a day. In addition to EnviTec’s wide-ranging experience and support, we provide high-end technology and set standards in efficiency, safety and reliability. full-Service provider components & operator, Pl anner Research & Substrate & Advisor development 59 [email protected] Web www.envitec-biogas.com Y EA R F O UN D E D 2002 S ALE S V O LU M E € 148.8 million (2013) E M P L O Y EE S 350 COMPANIE S Franz Eisele & Söhne GmbH & Co. KG EISELE – pump and machinery production based on experience and tradition Franz Eisele u. Söhne GmbH u. Co. KG Hauptstraße 2–4 72488 Sigmaringen Germany P H O NE +49 (0)7571 109-0 Hailing from the Swabian town of Sigmaringen, family company Franz EISELE & Söhne GmbH u. Co. KG offers a diverse range of products for energy-producing farmers, and specialises in the storage, conveyance, homogenisation, spreading and transportation of liquid manure. Biogas plant components complete the product range and have been built by EISELE for over 25 years. These include submersible motor-driven agitators with gas-tight operation in various models: Fa x +49 (0)7571 109-88 EMail [email protected] Web •for concrete floor digesters which either have a drive-over ramp or a quick access cover with a lifting device www.eisele.de Y EA R F O UN D E D 1887 E M P L O Y EE S 95 companies •for containers with membrane gas holders, the range includes a lateral access model which offers the possibility of automatic extension and retraction of the agitator. Thanks to a service shaft with an upward-opening cover, the agitator can be removed from the digester for servicing without it becoming necessary to uncover the gas holder 60 EISELE submersible agitators are available with output ratings of between 2.2 and 15 kW. Only devices with power outputs of 7.5, 11, 15, 18.5 or 22 kW, however, are used in biogas plants, whereby 11 and 15 kW agitator models are also available with ATEX certification for explosive atmospheres. All fittings are manufactured from stainless steel and the motors are constructed by EISELE. Thanks to their versatile application potential, vertical, submersible motor and rotary pumps ensure the flawless mixing and pumping of liquid manure or fermentation substrate and are supplied with power outputs ranging from 7.5 to 22 kW (bespoke models on request). Its extensive range of pumps therefore allows EISELE to satisfy all the requirements of agricultural operation. A combined overpressure/underpressure safety device made from stainless steel guarantees safe pressure within the fermenter and thus gives it protection. full-Service provider components & operator, Pl anner Research & Substrate & Advisor development FF-Maschinenbau GmbH For your biogas plant – innovative mixing technology and components of the highest quality FF-Maschinenbau GmbH, founded in 1993, has grown into a modern, medium-sized company active throughout Europe. In the last few years, FFMaschinenbau has established itself as a recognised specialist for pumps, flow agitators and mounting assemblies. Of particular note is the FF ZM Compulsory Mixer, which enables a very thorough mixing of solids that are to be transferred via reception tank systems and hydrolysers to the digesters during the wet fermentation process involving liquid manure and other suspensions. The solids floating on the liquid are sucked in and mixed into the suspension. Throughputs of up to 1.75 m/s are possible – and that with only a 15-kW power unit. Products: • compulsory mixers • standard mounting assembly for pumps and agitators, or made-to-measure • agitators • pumps • liquid manure technology • installation of systems and pipe runs FF-Maschinenbau GmbH Europark 1 01773 Altenberg Germany phone +49 (0)35056 236-0 FAX +49 (0)35056 236-10 EMail info@f f-pumpen.de Web www.f f-pumpen.de Y EA R F O UN D E D 1993 EBV gas-tight mounting assembly VA 1.4571 Finsterwalder Umwelttechnik GmbH & Co. KG Anaerobic biowaste recycling with Fitec technology of food waste. The machines and the process undergo continuous optimisation based on our own operational experience. Our machine technology portfolio includes, among other things, technologies for contaminant separation (Biosqueeze) and the continuous cleaning of the anaerobic digester (floor scraper and floating matter skimmer). FINSTERWALDER UMWELTTECHNIK Finsterwalder Umwelttechnik GmbH & Co. KG Mailinger Weg 5 83233 Bernau a. Chiemsee Germany P H O NE Biogas plant Langage Farm (Plymouth, UK) Finsterwalder Umwelttechnik GmbH & Co. KG (FITEC) specialises in the design of waste anaerobic digestion plants and the development of the associated process-engineered components, which are also marketed independently of the design contracts. All of the components must first prove themselves during a long-term period of trial operation in our in-house biogas plant used for the anaerobic digestion FITEC systems are capable of processing and treating all types of material from contaminant-free liquid wastes and packaged foodstuffs to waste from the green bin. The process technology is extremely robust and durable and guarantees maximum availability. +49 (0)8051 965910-0 Fa x +49 (0)8051 965910-20 EMail [email protected] Web www.fitec.com Our in-house simulation software forecasts the biological behaviour of the anaerobic digester as a function of the system configuration and the feed-in conditions, thus optimising the yield. Y EA R F O UN D E D 61 COMPANIE S full-Service provider components & operator, Pl anner Research & Substrate & Advisor development 1997 E M P L O Y EE S 12 System setup of SEPURAN® biogas plant Evonik Industries AG Energy efficient biogas upgrading with Sepuran® Green Evonik Industries is one of the world’s leading producers of specialty chemicals, with over forty years of experience in polymer chemistry, and operations in over 100 countries throughout the world. We offer hollow-fibre membrane cartridges for efficient, energy-saving biogas upgrading. Close-up view of a single hollow fiber [scanning electron microscope] Our membrane technology: offering you every advantage for small- and large-scale system applications Evonik’s membrane-based biogas upgrading method results in unusually high plant availability, extremely low energy demand and low maintenance costs. In addition, upgrading does not generate any waste or emissions, nor does it require any auxiliaries (such as water or sorbents). All of these benefits serve directly to keep costs down. Plus, the tremendous flexibility of the method makes membrane technology applicable to small- and to large-scale systems alike. Yet another advantage of this technology is that it can be easily adapted to changeable flow rates and gas compositions. companies 62 Robust and selective: hollow-fiber membranes from Evonik The process of separating gases through polymer membranes takes advantage of the fact that gas molecules differ both in their size and in their solubility within the polymer. Because CO2 molecules are smaller than methane molecules and dissolve more readily in the polymer, they diffuse through the membrane micropores considerably faster. This means that methane collects on the high-pressure side of the membrane, while water vapor, ammonia, hydrogen sulfide and most of the CO2 pass through the membrane. Its high level of selectivity makes SEPURAN® especially suitable for separating CO2 and methane. In just one step, our membrane molecules separate carbon dioxide and methane far better than competing membranes, offering market-leading CO2/CH4 selectivity. full-Service provider components & operator, Pl anner Research & Substrate & Advisor development SEPURAN® Green cartridge in detail As a result, our membranes can be used for purifying the methane in raw gas to over 99 percent, thus generating waste gas containing less than 0.5 percent methane. This means that nearly all of the methane obtained from fermentation is of biomethane quality. An innovative concept for connecting individual membrane elements is a key factor for the success of a biogas plant. Evonik has developed a method (patent pending) of purifying biogas and injecting it into the natural gas grid in a single condensation step. Our service Working with our OEM partners and plant engineering firms, we will develop superior process solutions for your specific regional biogas separation tasks. • gas separation technology based on hollow-fibre membranes • process design for membrane-based biogas upgrading • We work with knowledgeable plantengineering partners who offer system solutions on the market. Phone +43 (0)7672 7013016 fa x +43 (0)7672 96862 EMail [email protected] Web www.sepuran.com S ALE S V O LU M E Our references The number of biogas facilities using SEPUR AN® Green has been growing continuously since 2012, with plants already operating in Germany, Great Britain, France, Sweden, Thailand and China. Implementation is also underway at other plants in Norway, Netherlands, Korea and the U.S., for instance. € 12.7 billion e mp l oy e e s 33,000 SEPURAN® hollow fibre membranes full-Service provider components & operator, Pl anner Research & Substrate & Advisor development Evonik Fibres GmbH Gewerbepark 4 4861 Schör fling Austria Biogas upgrading container by Evonik 63 COMPANIE S Fliegl Agrartechnik GmbH Greater energy efficiency with Fliegl biogas technology Fliegl Agrartechnik GmbH Bürgermeister-Boch-Straße 1 84453 Mühldor f am Inn Germany P H O NE +49 (0)8631 307-0 Fa x +49 (0)8631 307-552 EMail dosier [email protected] Web www.fliegl.com www.agro-center.de Fliegl feeder systems for biogas plants are robust, durable and low-maintenance. Worldwide more than 1,300 systems are in operation with capacity volumes ranging from 5 to 246 m3. In addition to the Biomat feeder, Fliegl’s biogas innovations also include a new self-propelled container and the ÖkoDry integrated system for wood chip and sludge drying. The Biomat system can be matched exactly to each biogas plant with a variety of different attachments offering maximum flexibility: top and bottom input with the Rondomat attachment, MultiMix or screw systems and output through a pump or shredder. Dosed feeding provides smooth and safe operation with all substrates. The feeder containers use the patented Fliegl push-off technology and are made of highly acid-resistant PE-plastic. The Fliegl Biomat has a low energy consumption of 0.41 kW per tonne. Fliegl feeder systems for biogas plants are robust, durable and low-maintenance. Green Protection GmbH Sealing systems – concrete protection processes Green Protection GmbH Oberdombach 22 91522 Ansbach Germany phone +49 (0)9823 9246680 FAX +49 (0)9823 9269-26 EMail [email protected] Web www.green-protection.eu y e a r fo u n d e d 2010 Concrete protection is indispensable in biogas plants, drainage and sewage systems and agricultural facilities, where concrete is attacked by various acids and alkalis. These can result in the concrete dissolving or expanding and cracking. To date, GREEN PROTECTION GP concrete protection systems have been integrated into more than 7,000 containers within biogas systems and other plants both in Germany and worldwide. The concrete protection systems supplied by GREEN PROTECTION are modular, meaning that they both complement and build on one another. The impermeability of the structures is also subject to stringent requirements. GREEN PROTECTION GmbH has therefore additionally developed products and processes that take these requirements into account, and moreover provides suitable systems for any necessary restoration work. Without GP concrete protection companies 64 So choose GP concrete protection full-Service provider components & operator, Pl anner Research & Substrate & Advisor development Agricultural farmyard biogas plant – for refining liquid manure and waste materials generated by livestock husbandry as part of an ecological recycling process CHiP Tuner exhaust gas heat exchanger Green Energy Max Zintl GmbH We shape the future based on considerable past experience Green Energy Max Zintl GmbH, with more than 15 years’ experience in the biogas industry, is your professional and reliable partner in all things biogas. We can provide you with support from the initial idea and the design stage to the realisation of your individual biogas plant. Our team will support you with coordinating the overall workflow throughout the construction phase. This allows you to profit from our customised components, which are the products of our expertise and many years of practical experience. We believe that any good consultancy service for the realisation and construction of biogas plants should be based on personal experience. With us and our experienced engineers, you can rely on this 100%. We shape the future based on considerable innovation If you operate a CHP plant – don’t just generate a lot of hot air – use your thermal potential! Our CHiP Tuner exhaust gas heat exchanger allows you to reclaim up to an additional 30% heat output from the residual heat in exhaust gas under 220°C. The wear-free, self-cleaning, durable graphite heat exchanger cools the exhaust heat by up to 80°C. Developing an economical, logical overall concept for your new or existing plant is the basis of our daily activities. We will work with you to prepare a cost-efficient concept, tailor-made to your operation based on your ideas and requirements. This applies to both the optimisation and extension of existing plants and for the design and implementation of new projects. Green Energy Max Zintl GmbH Marktredwitzer Str. 65a 95666 Mitter teich Germany Phone +49 (0)9633 92344-0 Fa x +49 (0)9633 92344-19 EMail [email protected] Web www.green-energy-zintl.de Y e a r fo u n d e d 2006 E M P L O Y EE S 50 Do you have any questions? We have the answers! Comprehensible and based on practical experience www.biogas-shop.de full-Service provider components & operator, Pl anner Research & Substrate & Advisor development 65 COMPANIE S Huber SE Advanced separation technology for maximum yields WASTE WATER Solutions HUBER SE Industriepark Erasbach A1 92334 Berching Germany P H O NE +49 (0)8462 201-0 Fa x +49 (0)8462 201-810 EMail [email protected] Web www.huber.de Y EA R F O UN D E D 1834 E M P L O Y EE S > 600 Ro 5 Bio combined sand and contaminants separation STRAINPRESS ® Sludgecleaner SP for foam separation HUBER SE, based in Berching, is a globally active company in the field of water purification, wastewater treatment and sludge processing. The company was founded over 175 years ago and is active in some 60 countries through subsidiaries, agencies and distribution partners. Proven plant engineering technology used in wastewater treatment has been adapted and developed to the demands of high biogas yields with special purification technology and processing of fermentation residues. HUBER SE supplies engineering and process solutions for liquid waste acceptance, efficient separation and processing of sand and contaminants, dewatering of fermentation residues and process and wastewater treatment. (in Berching) Lindner-Recyclingtech Advanced shredding solutions for biogas plant substrate preparation The Limator is a versatile, modular impact crusher for processing of renewable raw materials, waste products and spoiled foodstuffs for biogas plants. The heart of the machine consists of special moving crusher plates which macerate the added materials in an optimised manner for biogas processing: Lindner-Recyclingtech GmbH Villacher Straße 48 9800 Spittal/Drau Austria Phone +43 (0)4762 2742 0 Special moving crusher plates Fa x +43 (0)4762 2742 9032 EMail of fice@l-r t.com Web www.l-r t.com Y e a r fo u n d e d 1948 Emp l oy e e s 200 companies Lindner-Recyclingtech GmbH develops, designs, manufactures and markets shredding and crushing technology for a wide variety of application areas. Since the introduction of the advanced Limator impact crusher at the end of 2012, the biogas industry has also been included and now benefits from the many decades of experience and innovative strength of this specialist in crushing and shredding technology from Austria. 66 • reducing the dwell time in the digester • increasing the spectrum of fermentation substrates • reducing stirring times and floating layers LINDNER Limator 1200 full-Service provider components & operator, Pl anner Research & Substrate & Advisor development Biogas plant in Oberwellenborn, Germany Biogas plant in Neusitz, Germany Fermentation residue dryer in Muntscha, Germany ibes Ingenieurbüro Dr. Eisenhardt Sonneberg Comprehensive engineering services for biogas In our role as a planning office, we support you every step of the way from the moment your idea is born until your plant is commissioned! We have been providing all the engineering ser vices necessary for this for more than 14 years. Thanks to site-specific planning, we design efficient biogas plants that meet your expectations and are characterised by excellent investment and operating costs. As a specialist engineering office, we are able to custom design process engineering and equipment without having to take manufacturers’ interests into account. We construct biogas plants of all sizes for the fermentation of slurry, renewable raw materials and cofermentation substrates that are tailored to fit their individual locations. We carry out all of our engineering services independently. Our biogas plants are characterised by their single-stage or multi-stage concrete digesters that are heated with stainless steel heating registers. The agitators and pumps are adapted to the substrate type and an external organic desulphurisation system prevents bio- genic corrosion in the digester. The CHP plant technology works with Otto gas engines or micro gas turbines and the control systems used for all control tasks boast process visualisation techniques and an internet connection, plus plant monitoring with an integrated Telenot security system. We have already planned and implemented various methods of using the waste heat produced, namely fermentation residue drying, absorption cooling and feed-in to district heating networks. The project planning and construction work is computerised, meaning that we are able to process all special requests quickly and precisely. Planning, site management, commissioning and after-sales ser v ices are performed by engineers with many years of experience in the field. ibes Ingenieurbüro Dr. Eisenhardt GmbH & Co. KG Or tstraße 25 96515 Sonneberg Germany Phone +49 (0)3675 745141 Fa x +49 (0)3675 809314 EMail [email protected] Web www.dr-eisenhardt.de Y e a r fo u n d e d 1997 Our biogas plants have been approved and certified by the TÜV, guaranteeing our customers maximum safety and reliability. 2 x 200 kWel micro gas turbine plant in Muntscha, Germany full-Service provider components & operator, Pl anner Research & Substrate & Advisor development 67 COMPANIE S LANXESS Deutschland GmbH INNOVATIVE IRON OXIDE FOR desulfurization OF BIOGAS LANXESS Deutschland GmbH Business Unit Inorganic Pigments Ulrich-Gregor Hermanns Web www.lanxess.com www.bayferrox.com Phone +49 (0)2151 88-2116 Y e a r fo u n d e d 2004 S ALE S V O LU M E € 8.3 billion (2013) The LANXESS Inorganic Pigments business unit is one of the world’s leading manufacturers of inorganic pigments, with a broad and innovative product range and acknowledged expertise in technical service. The business unit has a global presence with production facilities in Germany, China and Brazil as well as additional mixing and milling facilities in Australia, the UK, Spain and the USA. Iron oxide and chromium oxide pigments from LANXESS Inorganic Pigments are distinguished by their high quality and simple, standards-compliant and environmentally-compatible processing. LANXESS Inorganic Pigments has developed a technical oxide for the desulfurization of biogas. Bayoxide® E 16 is a highly effective synthetic iron oxide for reducing hydrogen sulphide in biogas that can be added directly to the fermentation reactor. “Our new product is a cost-effective alternative to conventional desulfurization processes, such as the use of activated carbon. Bayoxide® E 16 is very effective on account of its purity levels of almost 100%. In contrast to comparable products, a metering system is not necessary, meaning Bayoxide® E 16 is very simple to use,” explains Gregor Hermanns, technical oxides expert in the LANXESS Inorganic Pigments business unit. Emp l oy e e s 16,900 Production process of biogas PRODUCT ATTRIBUTES OF BAYOXIDE ® E 16 • Prevention of damage caused by corrosion • Safe to handle • No risk of explosive mixtures • Fulfils the German guidelines in the Fertilizer Ordinance (DüMV) • Simple dosing • Clean, dust-free handling • Cost reduction due to efficient desulfurization companies 68 full-Service provider components & operator, Pl anner Research & Substrate & Advisor development LIPP GmbH Flexible and efficient tanks and system solutions for biogas plants Founded in 1958 by the inventor Xaver Lipp, Lipp GmbH is a globally active family-run company which specialises in the planning and design of biogas plants and the construction of digesters and tanks. This success is based on the unique and patented Lipp Double Fold System in which the steel bands are folded in an automated process and permanently interconnected to one another. The patented VERINOX stainless steel composite material, manufactured by Lipp itself, is another unique selling point and guarantees the highest quality and durability of the biogas digesters at a low cost. Lipp supplies two types of digesters in various sizes: 1. The LIPP KomBio digesters, with integrated gas accumulator for up to 2,500 m3 2. The LIPP Universal digesters, with stainless steel diaphragm cover or air-supported cover for up to 5,000 m3 and more The benefits of LIPP at a glance: • quick, automated on-site fabrication • very low space requirement during assembly • constant high quality worldwide • flexibility in terms of diameter, height and cover • long service life • low investment costs GmbH Industriestraße 27 73497 Tannhausen Germany All these benefits always make LIPP the right choice as a digester and tank specialist and partner for the planning and design of small- and large-scale plants. Lipp GmbH uses the Lipp Double Fold System to produce biogas digesters, secondary digesters, hydrolysis mixing tanks and final storage facilities, along with a multitude of other storage containers for liquids, gases and bulk goods. P H O NE +49 (0)7964 9003-0 Fa x +49 (0)7964 9003-27 EMail [email protected] Web www.lipp-system.de Y EA R F O UN D E D In addition to its tank solutions, Lipp GmbH also most notably offers its customers and partners around the globe planning services and expertise for the design of biogas plants. The company’s many decades of experience in the biogas sector and container construction provide a solid foundation for this and offer a great advantage. 1958 E M P L O Y EE S 50 Universal digester with gas-tight stainless steel diaphragm cover up to 5,000 m3 KomBio Digester and Universal secondary digester Agricultural biogas plant, 600 kW, Tannhausen, Germany full-Service provider components & operator, Pl anner Research & Substrate & Advisor development Water and waste water containers with or without cover from 100 m3 to 10,000 m3 and more 69 COMPANIE S TRZ 700 – compressor for biomethane injection TVZ 900 – compressor for biomethane injection TRE 700 – compressor for biogas upgrading Mehrer Compression GmbH Biogas processing and biogas grid injection Mehrer Compression GmbH Rosenfelder Straße 35 72336 Balingen Germany P H O NE +49 (0)7433 26 05-0 Fa x Mehrer Compression GmbH is synonymous with quality and reliability. The company ranks among the world’s leading manufacturers of oil-free piston and diaphragm compressors for process gas applications with an output range of 2.2 to 250 kW and pressures of up to 1,000 bar (absolute pressure). They are primarily used in the mediaindependent deposition, grid injection, extraction, purification, storage and drying of gas. +49 (0)7433 26 05-41 EMail [email protected] Web www.mehrer.de y e a r fo u n d e d 1889 E M P L O Y EE S approx. 120 In addition to its activities in various sectors and areas of application, Mehrer also produces environmentally friendly compressor solutions. In this field, Mehrer units make an important contribution to the permanent treatment of potable water. The company devotes particular attention to designing solution-oriented biogas compressors, which are chiefly characterised by their ease of installation and reliable operation in container stations. Whether biogas processing or biomethane injection – Mehrer’s oil-free piston and diaphragm compressors always guarantee reliable, efficient, fail-safe plant operation. companies 70 Headquartered in Balingen, Southern Germany, and a family-run enterprise since its foundation in 1889, Mehrer is one of the world’s oldest compressor manufacturers, and one that is steeped in tradition. Production, design and development take place exclusively at the company’s headquarters, thus ensuring that the high production quality of the plants is sustained. Mehrer has been renowned since the 1970s for the design and manufacture of dry cylinder piston compressors and compressor units in particular. In addition to our plant commissioning and maintenance services, designing compressors and compressing plants to meet bespoke, process-specific requirements in numerous markets has enabled us to gain cutting-edge expertise, which in turn has made us a solution-oriented partner for companies across the world. Mehrer will continue to promote resource-saving, media-independent gas compression, and in future will also provide outstanding tailored servicing solutions and manageable, secure operation costs. full-Service provider components & operator, Pl anner Research & Substrate & Advisor development MethaPOWER Biogas GmbH From waste to value – Biogas upgrading systems from one of the leading partners MethaPOWER Biogas designs and realises tailor-made upgrading plants according to customers’ substratum on stock, utilising agro-industry waste, municipal waste and other organic material. The unique aspect of the MethaPOWER Biogas plant is the innovative inlay material cracking, state-ofthe-art substrate management – the biogas plant only processes agricultural residues, harvest waste fractions and horse stable waste – and the innovative membrane technology for upgrading the produced biogas to biomethane. MethaPOWER is a shareholder and operator of fermentation and biogas upgrading plants in Austria, Germany and Italy. In June 2014, the Austrian enterprise won the Sustainable Energy Europe Award for its biogas upgrading plant in Margarethen am Moos – Austria’s largest biogas plant. Services and products • planning and conceptualisation • substrate management & repowering • 24/7 service and maintenance operation MethaPOWER Biogas GmbH Burgring 1/4 1010 Wien Austria Phone +43 (0)1 5812141 Fa x +43 (0)1 5812141-20 EMail of [email protected] Web www.methapower.eu Y e a r fo u n d e d 2011 Biogas plant at Margarethen am Moos, Austria MTU Onsite Energy GmbH Experience the energy MTU Onsite Energy GmbH Dasinger Str. 11 86165 Augsburg Germany P H O NE +49 (0)821 7480-0 Fa x A MTU 12V400 GS biogas CHP system with an output of 400 kWel and 455 kW th MTU Onsite Energy supplies connection-ready containers for the 400 and 4000 series MTU Onsite Energy – Gas Power Systems – from Augsburg is one of the leading manufacturers of gas-engine powered decentralised energy systems. The existing product portfolio covers everything from individual units for power generation (Genset), cogeneration compact modules and container units to turnkey complete plants. The systems run on biogas, sewage, landfill or natural gas with power outputs ranging from 120 to 2,600 kWel. Onsite Energy has more than 35 years’ experience in developing gas engine systems and has already installed 4,000 systems around the world. +49 (0)821 7480-119 EMail [email protected] Web www.mtuonsiteenergy.com Y EA R F O UN D E D An international network of sales and service offices guarantees optimum support during all phases of your project from the design stage to commissioning and service. full-Service provider components & operator, Pl anner Research & Substrate & Advisor development 71 1977 E M P L O Y EE S 400 COMPANIE S NETZSCH Pumpen & Systeme GmbH For your media in biogas systems – NEMO® progressing cavity pumps and TORNADO® rotary lobe pumps NETZSCH Pumpen & Systeme GmbH Geretsrieder Straße 1 84478 Waldkraiburg Germany P H O NE +49 (0)8638 63-0 Fa x +49 (0)8638 667981 EMail [email protected] Web www.netzsch.com Y EA R F O UN D E D 1952 S ALE S V O LU M E € 205 million E M P L O Y EE S 1,900 Today’s trend is the increasing use of organic matter fermentation for the economical production of energy. As a world market leader in progressing ca v i ty pumps and a specialist in biogas technology, we offer matched mixing and conveying systems for all process stages in the production of biogas. For many years, rotating positive displacement pumps have been used as conveying systems for all kinds of substrate in this sector. Due to their inherent characteristics, these pumps guarantee a reliable, safe and efficient process. TORNADO ®: High performance rotary lobe pump in Japan and another 200 NETZSCH representatives we are close to wherever you are. Uniform standards in development and production based on DIN EN ISO 9001 at all sites ensure the highest quality for which the name NETZSCH is a synonym. Our NEMO® progressing cavity pumps, our TORNADO® rotary lobe pumps as well as our NETZSCH grinding systems can mix, convey and crush material. With more than 1,900 employees at five development and production sites and 30 sales offices, a cooperation partner NEMO ® B.Max® : maximum homogenisation of substrates FRITZ PAULMICHL GMBH High-quality components for biogas plants: homogenisation – pumping – separation FRITZ PAULMICHL GMBH Kisslegger Straße 13 88299 Leutkirch Germany Phone +49 (0)7563 912 479 0 FAX +49 (0)7563 8012 EMail [email protected] Web www.paulmichl-gmbh.de Y e a r fo u n d e d 1907, since 1985 Fritz Paulmichl GmbH Emp l oy e e s 50 Fritz Paulmichl GmbH has been a supplier of high-quality components for biogas systems and plants for many years. For new installation, plant expansion or operational improvement – our customers have come to value our reliable technology combined with longtime expertise and our large variety of products. For this reason our customers include both plant manufacturers and research facilities as well as plant operators. high demand with its impressive mixing power. It has been specially developed for secondary fermentation and residue tanks with varying filling levels and foil covered lagoons. Visual control is one of the basic requirements for safe plant operation. For this application the PAULMICHL Panorama Inspection Glasses have been developed. PAULMICHL products are well known for being easy to handle and for their long service live. We experience a great demand for our large propeller agitator “Mammut”, which can be mounted as a ceiling- or wall-mounted unit. The “Multimix” agitator, newly added to our product range, is also attracting very High-quality components for biogas plants for homogenisation, pumping and separation companies 72 full-Service provider components & operator, Pl anner Research & Substrate & Advisor development NORTH-TEC control desk: 24-hour supervision Plant room and pump layout in a one megawatt system Biogas plant in Neusitz, Germany NORTH-TEC Maschinenbau GmbH Setting new standards in all things service and innovation In the last few years, NORTH-TEC Maschinenbau GmbH has established itself in the biogas sector beyond the borders of Germany with its plant construction, plant extension, plant optimisation and 24/7 full service. The company enlarged its already comprehensive portfolio to include a control centre – a very significant addition. This is staffed around the clock by specialists who offer a 24-hour plant monitoring service, including analysis and, if needed, the resolution of all incoming error messages. By integrating biogas plants in the direct marketing, NORTH-TEC Maschinenbau GmbH sees itself as an interface between plants and the direct marketer. This integration of the direct marketing module in the NT Bogas Power pro plant software enables participation in the energy balancing market and the associated potential funding through market premiums. In the procurement side of the energy management sector, the NT Bogas Powerpro plant software offers the option of integrating energy generation systems such as photovoltaics or CHP plants. NOR TH-TEC Maschinenbau GmbH Oldenhörn 1 25821 Bredstedt Germany P H O NE +49 (0)4671 9279800 Fa x +49 (0)4671 92798-11 As part of the NT service agreements, NORTH-TEC Maschinenbau GmbH not only offers its comprehensive carefree package, there are also four agreement options (SELF, ECO, BASIC or COMPLETE) which provide a tailor-made solution for any plant. Naturally, new standards are also being set in terms of plant extension and optimisation. NORTH-TEC Maschinenbau GmbH produces innovative optimisation concepts for plants of all manufacturers and offers Plug&Play products ready for operation. EMail info@nor th-tec.de Web www.nor th-tec.de Y EA R F O UN D E D 2004 S ALE S V O LU M E The same applies for the independent biological consultancy service for your biogas plants. A range of support packages or individual consultancy services is offered for these according to customer requirements. … And in the unlikely event that your service should fail, the company’s rapidresponse, professional service team and its comprehensive stock of spare parts of a wide range of manufacturers is available 24/7. full-Service provider components & operator, Pl anner Research & Substrate & Advisor development 73 € 11 million (Nor th-Tec group) E M P L O Y EE S 45 COMPANIE S ÖKOBIT GmbH The biogas and biomethane plant experts ÖKOBIT Prozessleitsystem Biomethananlage Semd/Hessen ÖKOBIT GmbH Jean-Monnet-Straße 12 54343 Föhren Germany P H O NE +49 (0)6502 93859-0 Since 2000, ÖKOBIT GmbH has been installing top-quality biogas and biomethane plants tailor-made to meet the needs of individual sites and for various substrates. With its comprehensive experience and over 140 national and international projects, the company is one of the most established full-service providers in the industry. Biomethane plants ÖKOBIT has been working with biomethane since 2006. We have installed numerous projects involving various treatment processes and technologies. With our experience, qualified specialists and professional project management skills, we construct plants according to customer requirements and to a high industrial standard. Suitable for a wide range of substrates, economical and operator friendly ÖKOBIT devises technical concepts which take into account all input options while guaranteeing short construction times, maximum availability and a high level of serviceability for all components used. Process control system The possible options for professionally increasing biogas production as a result of systematic interventions in the biogas process are developing at a great pace. With ÖKOBIT’s own process control system (PCS), we actively support biogas plant operators in optimising the efficiency ratio and systematically lowering the energy consumption of the plant. Fa x +49 (0)6502 93859-29 EMail [email protected] Web www.oekobit-biogas.com y e a r fo u n d e d 2000 e mp l oy e e s 60 With its tailor-made, integrated system solutions, ÖKOBIT is a strong and much sought-after partner among farmers, energy providers and domestic and international investors. As part of a network, ÖKOBIT covers the full spectrum from planning, authorisation, plant construction, operation and service. companies 74 Despite the complex requirements placed on the automation and measurement technology, the PCS is intuitive and easy to operate via the on-site interface or remote access. Plant operation is also supported by the system’s intelligent smartcontrol module. This is another innovation that ÖKOBIT has introduced to the sector. full-Service provider components & operator, Pl anner Research & Substrate & Advisor development OWS Leading the way in the digestion of solid and semisolid organics for over 25 years OWS (Organic Waste Systems) is a world leading company in the construction and operation of anaerobic digestion plants for solid and semisolid feedstocks. OWS has 30 full-scale reference plants in about 15 different countries, treating source-separated and mixed household waste, as well as pure organic substrates. OWS nv Street: Dok Noord 5 9000 Gent Belgium Phone The experience and mechanical and biological know-how of OWS has resulted in the development of innovative and patented designs, with a digester concept adapted to each type of solid and semisolid feedstock: • The DRANCO process: vertical fermenters for the digestion of household waste organics • The DRANCO-FARM process: vertical fermenters for the digestion of pure organic feedstocks such as harvest residues and industrial organic waste • The BES process: an anaerobic process with horizontal fermenters (plug-flow digestion) for the digestion of pure organic substrates • The SORDISEP process: a wet separation process for digested municipal or residual waste coming from the DRANCO process +32 (0)9 2330204 DRANCO plants in Brecht (Belgium) constructed in 1992 & 2000 Fa x +32 (0)9 2332825 OWS provides biogas consultancy and support to biogas plant operators, not only for digestion plants constructed by OWS, but also for digesters constructed by others: EMail [email protected] Web www.ows.be Y e a r fo u n d e d 1988 • one-stop shop for biological supervision, mechanical assistance and automation • supervision and improvement of the digestion of household waste organics, energy crops, food waste, manure and industrial organics In addition, OWS also performs standard testing and support analyses for obtaining biodegradability and compostability labels, and provides services for waste management in the form of biological treatment and recycling. DRANCO plant for the anaerobic digestion of 50,000 t/y of biowaste in Hengelo (The Netherlands) full-Service provider components & operator, Pl anner Research & Substrate & Advisor development DRANCO plant in Münster (Germany) for the a naerobic digestion of residual waste DRANCO plant in Tenneville (Belgium) for the anaerobic digestion of biowaste 75 COMPANIE S Pentair Haffmans’ biogas upgrading system with CO2 tank Pentair Haffmans Specialist in biogas upgrading and sustainable CO2 solutions Pentair Haffmans Marinus Dammeweg 30 5928 PW Venlo Netherlands P H O NE +31 (0)77 3232300 Fa x +31 (0)77 3232323 EMail info@haf fmans.nl Web www.haf fmans.nl y e a r fo u n d e d 1947 E M P L O Y EE S 30.000 Pentair PLC 170 Pentair Haf fmans Pentair Haffmans, founded in 1947 and headquartered in Venlo, Netherlands, is a global market leader in carbon dioxide (CO2) recovery and management solutions. Our products and technologies are used in the brewing, soft drink, wine, bioethanol and biogas industries to recover food-grade CO2 from fermentation processes. Pentair Haffmans’ biogas upgrading technology offers substantial advantages compared to conventional systems. Biogas primarily consists of a mixture of methane (CH4) and CO2. Pentair Haffmans’ biogas upgrading system recovers 100 percent of the CH4, which eliminates the environmentally harmful ‘methane slip’ that usually occurs with other upgrading techniques, and results in a higher methane yield. As an option, the CO2 by-product is recovered and can be sold for use in a variety of applications, including greenhouse growing, providing the plant operator with an additional source of income. standard plug-and-play units to customdesigned solutions. An experienced project management team supervises each project from order placement through to the Factory Acceptance Test (FAT). Our dedication to your system continues after the sale. Through comprehensive lifecycle management, Pentair Haffmans ensures that the installation operates at optimal performance. Regardless of where your plant is located, our global network of service engineers is ready to serve you. In addition, product specialists provide 24/7 technical support by phone, email, Skype, or remote service. Our biogas upgrading systems are based on a combination of membrane and cryogenic technology and range from companies 76 full-Service provider components & operator, Pl anner Research & Substrate & Advisor development Pro2 Anlagentechnik GmbH & SEVA Energie AG The energy synergy Operating under one holding company for a few years now, SEVA and Pro2 exploit synergies on the national and international CHP market. Both companies can look back on 30 years’ experience and more than 1,700 installed CHP units. The large service network of the two companies ensures fast and reliable maintenance services in Germany and abroad. The companies’ core areas of expertise thus lie in developing and constructing turnkey plants and systems for supplying energy and exploiting biogas, sewage gas, natural gas, coal mine gas and landfill gas. SEVA and Pro2 produce CHP plants at a production area totalling 6,000 m 2 with six production lines in parallel. The plants comprise gas engines with electrical module outputs of between 75 kW and 2,000 kW. The latest product is the self-developed 400 kWel engine with more than 85% total efficiency. In addition, the company develops and constructs system solutions for gas utilisation, such as gas extraction, gas purification and flare systems. Pro2 Anlagentechnik GmbH Schmelzerstraße 25 47877 Willich Germany Phone +49 (0)2154 488-0 EMail [email protected] SEVA Energie AG Europa-Allee 14 49685 Emstek Germany Phone +49 (0)4473 9281-0 EMail [email protected] The SEVA compact module PRONOVA Analysetechnik GmbH & Co. KG Reliability and economic efficiency based on metrological analysis of the biogas process SSM 6000: on-line biogas analysis (1) FOS/TAC 2000: rapid substrate evaluation (2) around the globe today, PRONOVA continues to be a leader in biogas analysis. PRONOVA also provides solutions for special and new applications, such as processing plants, for example. PRONOVA supplies the following key products for controlling and optimising biogas plants: • SSM 6000 for online biogas analysis with additional long-term stability from proCAL • FOS/TAC 2000 for evaluating the most important substrate parameters: concentration of the volatile organic acids FOS and buffer capacity TAC From its first biogas analyser in 1998 to the more than 3,000 systems deployed PRONOVA also supplies gas warning technology and components for substrate analysis (pH, ammonium, etc.). The automatic Titrator FOS/TAC 2000 offers a simple means of monitoring the core substrate parameters, FOS and TAC, without any time delay to the plants. PRONOVA Analysetechnik GmbH & Co. KG Groninger Straße 25 13347 Berlin Germany P H O NE +49 (0)30 455085-0 Fa x +49 (0)30 455085-90 EMail [email protected] Web www.pronova.de PRONOVA is currently active in many gas analysis sectors. As a group of companies, PRONOVA also supplies iR AS ® water analysis technology and STELZNER® agricultural measurement technology. Y EA R F O UN D E D 77 COMPANIE S full-Service provider components & operator, Pl anner Research & Substrate & Advisor development 1998 E M P L O Y EE S 25 PURAC PUREGAS Purac Puregas GmbH – Your partners for biogas upgrading Sävsjö Biogas Upgrading Plant Purac Puregas GmbH Am Fallturm 5 28359 Bremen Germany Phone +49 (0)421 168 39-0 FAX With more than ten years of experience, Purac Puregas GmbH designs and constructs biogas upgrading plants using the CApureTM process, which is based on chemical absorption. This type of biogas upgrading technology produces high-quality green energy of natural gas quality for injection into local gas grids and further use as auto gas. +49 (0)421 168 39-25 EMail The Purac Puregas CApureTM process is characterised by: • low operating costs • methane losses < 0.1% • high yields with a methane purity level > 99% We offer: • shop-tested and CE certified biogas upgrading plants • modular constructed plants in various capacities • maintenance & service for high system availability [email protected] Web www.purac-puregas.de SCHNELL Motoren AG Maximum efficiency in gas combustion and pilot injection combined heat and power plants SCHNELL Motoren AG Hugo-Schrott-Straße 6 88279 Amtzell Germany Phone +49 (0)7520 9661-0 FAX +49 (0)7520 5388 EMail [email protected] SCHNELL Motoren AG manufactures combined heat and power (CHP) plants for the efficient generation of energy from biomass. Since it was founded in 1992, the company has developed into a technological leader for gas combustion and pilot injection combined heat and power plants. With gas combustion CHP plants with an electrical efficiency ratio of 46.1%*, the company is setting new standards with regard to increasing efficiency. Web 250-kW gas combustion power unit with a 46.1% degree of electrical efficiency www.schnellmotor.de Y e a r fo u n d e d 1992 * in accordance with ISO EN 3046-1, certified in DLG test in 2013 for the 250-kW agrogen 6R20.1BO power unit companies 78 Installing the power unit The power units, which have an electrical output range of up to 550 kW, are used in biogas plants. The product portfolio also includes the conversion of natural gas and sewage gas into electricity. More than 3,500 SCHNELL CHP plants have been installed in machine houses or as total solutions in containers around the globe. More than 100 inhouse service engineers and numerous certified service partners at home and abroad guarantee high-speed service. full-Service provider components & operator, Pl anner Research & Substrate & Advisor development seepex GmbH The seepex bio substrate mixing system for fermentation product conveying seepex GmbH, headquartered in Bottrop, Germany, develops, manufactures and globally markets progressive cavity pumps for conveying low to highly viscous, aggressive and abrasive media. seepex offers a wide range of solutions to match the specific requirements of biogas plants. The modular seepex system allows us to offer optimum technical and economic solutions for transporting fermentation products and conveying almost all process-related products. The seepex bio substrate mixing system is the ideal solution for thoroughly mixing the solid and liquid fermentation products before feeding them into the fermenter. It consists of a sturdy feed hopper pump from product group T, a standard BN range pump and the “Biogas Control System” – BGDC for short. seepex offers various designs of feed hopper pumps matched to the properties of the fermentation products being conveyed. seepex GmbH Scharnhölzstraße 344 46240 Bottrop Germany Phone +49 (0)2041 996-0 FAX +49 (0)2041 996-400 EMail [email protected] Web www.seepex.com Y e a r fo u n d e d 1972 Emp l oy e e s 700 The seepex bio substrate mixing system with Smart Conveying Technology (SCT) SILOKING Mayer Maschinenbaugesellschaft mbH Solids metering and mixing system for simply intelligent feeding SILOKING Mayer Maschinenbaugesell schaft mbH is a leading company in the development and production of feeding systems for biogas plants and cattle feed. In modern manufacturing facilities, the feed processor and dosing systems are series from 3 m³ to 80 m³. Innovations are focused on safe and simple operation and on low energy consumption. All projects are individually planned and adapted to on-farm demands by experienced product specialists. Mayer Maschinen baugesellschaft mbH Kehlsteinstraße 4 84529 Tittmoning Germany P H O NE +49 (0)8683 8984-0 Complete solutions for solids metering systems up to 80 m³ incl. feeding augers Fa x +49 (0)8683 8984-55 EMail SILOKING features and benefits: • SILONOX steel: acid proof and wear resistant • easy to install in just one day • low energy consumption • flexible to a wide range of feed • easy to adapt to external control units • units from 3 m³ to 80 m³ capacity [email protected] Web www.siloking.com Y EA R F O UN D E D 1983 E M P L O Y EE S 340 Self-propelled vertical feed mixer SelfLine System 1000+ 3024-24 with high performance full-Service provider components & operator, Pl anner Research & Substrate & Advisor development 79 COMPANIE S A large touch screen displays the stored and current measurements. The Multitec ® 540 for monitoring shafts The Multitec ® BioControl is one system for stationary and mobile measurements. Hermann Sewerin GmbH Leak detection technology Hermann Sewerin GmbH Rober t-Bosch-Straße 3 33334 Gütersloh Germany P H O NE +49 (0)5241 934-0 Fa x Since filing a patent application for the first gas leak indicator in 1926, Hermann Sewerin GmbH has become one of the leading technology providers in the gas and water leak detection market. Its success is not only due to this experience in developing measuring devices, which has spanned more than 80 years, but also to the knowledge acquired through use of the devices by its own surveying teams. +49 (0)5241 934-444 EMail [email protected] Web www.sewerin.com Specially developed for use in biogas plants, the Multitec® BioControl – one system for stationary and mobile measurements Y EA R F O UN D E D 1923 All plant operators producing electricity from biogas, sewer gas or landfill gas aim to optimise processes and thus ensure greater efficiency – in other words, to obtain as much methane as possible. At the same time, however, harmful components in the gas need to be kept to a minimum. Only constant monitoring of the gas composition in a plant can indicate changes before it is too late and thereby companies 80 prevent prolonged outages. If the power generation is subsidised, the plant operator must regularly document the gas composition and volume. The Multitec ® BioControl can reliably and sustainably handle these tasks. The intelligent compensation of pressure, temperature, moisture and gas composition means that the components can be analysed with precision. The Multitec ® BioControl can also determine the temperature and flow rate. The Multitec ® BioControl is a combined measuring device consisting of the Multitec ® BioControl fixed installation and a mobile gas measuring device – the Multitec ® 540. Depending on the version of Multitec ® BioControl, the gas composition and volume can be automatically measured and monitored at up to eight measurement locations. The Multitec ® 540 measures the values at the individual measurement locations sequentially. The values are transferred to the Multitec ® BioControl via an interface. Individual measuring locations can also be set up for mobile measurement if preferred. full-Service provider components & operator, Pl anner Research & Substrate & Advisor development SILOXA Engineering AG Biogas drying, cleaning and processing systems The Siloxa PowerDryer ECO Line Since it was founded in 1998, SILOXA Engineering AG has continued to develop with its solid corporate policy and the design of innovative systems for the cleaning, drying and compression of gases. Today, the company is one of Europe’s market leaders for components for the treatment of biogas, sewage gas and landfill gas. One example is the PowerDryer, which is now also available in the “ECO Line” version with a new functional element. Fitted with an additional cooling unit, it uses the ambient air to pre-cool the biogas. Using a temperature-independent compression cooling system together with the additional cooling unit reduces the energy costs associated with gas processing. Siloxa Engineering AG Katernberger Straße 107 45327 Essen Germany Phone +49 (0)201 28951-0 fa x +49 (0)201 28951-29 EMail ver [email protected] web All of the products are designed and produced exclusively at the company’s headquarters in Essen, with assembly, commissioning and after-sales service completing the comprehensive package. Be it customised plant construction or universal standards for gas cleaning and gas drying, SILOXA offers extremly economic solutions. www.siloxa.com Y EA R F O UN D E D 1998 E M P L O Y EE S 50 streisal GmbH Highly efficient mixing technologies from the stirring professionals Long-axis stirring shaft with two large, energy-efficient blade propellers Founded in 1988 as a manufacturer of submersible motors, streisal GmbH develops, manufactures and globally markets innovative agitators and mixing systems for biogas plants, wastewater technology and industrial applications: • submersible mixers from 1 to 18.5 kW (medium- and slow-speed, with propeller diameters of up to 2.8 m) • rod agitators • long-axis agitators • vertical agitators Based on our many years of experience and our knowledge gained from numerous mixing experiments in our own fluid mechanics laboratory, we can always select the right product for each particular application from this wide range of options. streisal high-performance propeller streisal GmbH Pettermandstraße 2 88239 Wangen im Allgäu Germany P H O NE +49 (0)7522 707965-0 Fa x +49 (0)7522 80450 EMail [email protected] Web www.streisal.de y e a r fo u n d e d 1988 Emp l oy e e s 20 Our services include expert advice, modernisation/repowering of your plants, professional servicing and maintenance, spare parts supply and repair. full-Service provider components & operator, Pl anner Research & Substrate & Advisor development 81 COMPANIE S SUMA Rührtechnik GmbH Mixing must be effective, efficient and sustainable SUMA Rührtechnik GmbH Mar tinszeller Straße 21 87477 Sulzberg Germany Phone +49 (0)8376-92131-0 FAX +49 (0)8376-92131-19 EMail [email protected] Web www.suma.de Through innovation based on our extensive experience, SUMA finds solutions for complex mixing challenges. We develop and optimise our products for our customers’ benefit. We continue to work on new developments and improved processes. SUMA propellers are extensively tested in our own test basin for efficiency, effectiveness and performance. The SUMA HD+ propeller design, which is over 20% more efficient than previous designs, resulted from such work. Our recent design, the Giantmix FT series, combines all the knowledge gained from making agitators for biogas plants over the last 20+ years. For example, the Giantmix FT design allows direction changes of up to 30° in all directions and can be installed up to 8 m below substrate level. The SUMA Optimix 2G is our submersible mixer for the best results. With low power consumption and a high thrust and circulation rate, it is one of the most cost effective and reliable submersible mixers for effective mixing. Y e a r fo u n d e d 1957 Emp l oy e e s 70 Giantmix FT Tietjen Verfahrenstechnik GmbH IMPRASYN® substrate disintegration/Food waste seperation DRM Unlocking the potential of food waste, DRM hybrid simultaneously grinds biodegradable wastes and separates up to 98% of packaging material. The modular system is built for facilities processing 10 m3/h or more. Benefit from our solutions covering your entire biomass reception and conditioning process or use DRM with existing systems. Tietjen Verfahrens technik GmbH Vor der Horst 6 25485 Hemdingen Germany Phone +49 (0)4106 6333-0 FAX +49 (0)4106 81444 EMail [email protected] Web www.tietjen-original.com Y e a r fo u n d e d 1959 Emp l oy e e s 40 companies IMPRASYN® biomass disintegration: proven and tested in practice since 2011 The patented IMPRASYN® system stands for a 10 to 15% increase in biogas yields, flexible biomass options including grass and manure, efficient use of digester volume. Biomass is broken down in a wet grinder while a biological additive is mixed in. Methane production is increased and accelerated. 82 Tradition and innovation Since 1959, Tietjen has delivered machinery and equipment for more than 2,000 biomass conditioning projects worldwide: from hammer mills for feed and wood pellets to substrate disintegration for ethanol and biogas. We provide mechanical as well as plant engineering. Our services include planning and project management as well as technical and biological support. full-Service provider components & operator, Pl anner Research & Substrate & Advisor development Thöni NATURGAS plant in Suffolk (England) Thöni TTV plant in Augsburg (Germany) Thöni TTV paddle agitator THÖNI INDUSTRIEBETRIEBE GMBH Robust design and operational efficiency ensure maximum availability THÖNI Industriebetriebe GmbH is an Austrian-based provider of biogas plants for treating organic waste and agricultural by-products. With a track record of more than 20 years, Thöni provides highly efficient plant solutions offering an excellent price-performance ratio. These systems are planned and designed by Thöni’s own engineering division and the key plant components are manufactured at the in-house metalworking facility. THÖNI currently has more than 70 biogas plants in operation throughout Austria, Italy, Germany, Great Britain and Bulgaria. Put waste in, draw energy out Thöni T TV is a dry fermentation process that is particularly well-suited for organic waste because it has a higher tolerance against impurities than other processes. The heart of the Thöni T TV process is the plug-flow digester equipped with a slow rotating paddle agitator, ensuring the optimum mixing of the substrate and thus a high biogas yield. The Thöni paddle agitator ensures highly efficient stirring as well as optimum prevention of swim layers and sediments. Dewatering of the fermentation residues is effected by Thöni screw presses, which are characterised by efficient energy consumption and durability. Turnkey systems for the agricultural sector Thöni NATURGAS technology is based on the wet digester, which is continuously filled with liquid and solid input material via a special feed hopper system. The patented Thöni paddle agitator creates the conditions for stirring input mixtures with high dry matter content so efficiently that no floating layers arise, while at the same time ensuring high gas yields. THÖNI INDUSTRIEBETRIEBE GMBH Obermarkt 48 6410 Telfs Austria P H O NE +43 (0)5262 6903-0 Fa x +43 (0)5262 6903-8503 EMail [email protected] Web www. thoeni.com Y EA R F O UN D E D 1964 E M P L O Y EE S Outstanding features of Thöni biogas plants: • high system and input flexibility, robust and durable plant technology • operational efficiency, low operating costs and maximum availability • high biogas yields due to efficient stirring technology full-Service provider components & operator, Pl anner Research & Substrate & Advisor development 83 480 COMPANIE S A TÜV NORD specialist audits a biogas plant. TÜV NORD GROUP Profitable, legally compliant and safe biogas plants with the comprehensive services of the TÜV NORD GROUP TÜV NORD GROUP Große Bahnstraße 31 22525 Hamburg Germany P H O NE +49 (0)40 8557-2123 Fa x +49 (0)40 8557-19015719 EMail [email protected] Web www.tuev-nord.de/biogas Y EA R F O UN D E D 1869 S ALE S V O LU M E € 1,056 million E M P L O Y EE S > 10,000 The economic efficiency of biogas plants, biogas treatment and feed-in plants depends heavily on optimising the planning, licensing and construction processes. Another equally important factor is how safe and reliable their operation is. With these requirements in mind, TÜV NORD has compiled a comprehensive range of services. Our industry specialists will assist your projects with all the necessary approvals, accreditations and a great deal of experience during the planning phase and the overall operating period. Environmental reports and certification: We provide certified environmental auditors for the classification and determination of eligibility for payments under the German Renewable Energy Law (EEG). Our auditors issue proof of origin certificates and conduct plant audits and certification based on various standards (e.g. ISCC, REDcert, Medium-Voltage Directive, etc.). Location and emissions: Our technical specialists will evaluate the site suitability. As part of the licensing pro- companies 84 cedure, we produce odour and noise forecasts, examine the environmental impact and support you during the application process. We perform emission measurements (including formaldehyde measurements, amongst others) during the operational phase. We use a gas detection camera to check the leaktightness of gas-bearing components. We help you to implement the conditions set out in the notice of approval. Safety and environmental protection: We carry out audits according to the Industrial Safety Act, laws pertaining to water and waterways, pollution control and major accidents, and the regulations of the DVGW (German Association for Gas and Water). We also provide comprehensive support with the compilation of explosion protection documentation, risk assessments and major accident response plans. We compile technical reports, e.g. for scheduled repowering activities. Training and further education: Our academy will train your employees on occupational health and safety, technological safety, environmental protection and many other topics. full-Service provider components & operator, Pl anner Research & Substrate & Advisor development UGN-Umwelttechnik GmbH UgnCleanPellets® are more effective than active carbon for desulphurisation and cleaning of exhaust gas UGN®-BEKOM H plant THE BENEFITS TO YOU: • recovery of sulphur as a valuable raw material for your land • utilisation of the energy of warm and wet gases • savings in gas cooling energy • no disposal costs • potential for desulphurisation without additional oxygen injection Removing pollutants and contaminants from biogenic fuel gases is the first key step in optimising output and returns on biogas plants. As part of our range of sustainable products, we offer UgnCleanPellets® S 3.5 and UGN® -BEKOM systems specifically for the useful conversion of the hydrogen sulphide contained in biogenic fuel gases into elemental sulphur. The sulphurenriched pellets make an excellent soil conditioner for spreading on your land. The versatile UgnCleanPellets® are also effective in resolving problematic odours and emissions. Using the UGN® -BEGA system in combination with hybrid filter modules based on UgnCleanPellets®, odorous organic or inorganic compounds can be avoided. UGN-Umwelttechnik GmbH Gewerbepark Keplerstraße 20 07549 Gera Germany Phone +49 (0)365-8305898 fa x +49 (0)365-7106931 EMail [email protected] web www.ugn-umwelttechnik.de Y EA R F O UN D E D 2002 WELTEC BIOPOWER GmbH Stainless steel biogas plants with global demand WELTEC BIOPOWER GmbH was founded in 2001 and with over 300 plants installed in 25 countries, it has been a biogas plant manufacturer from the very start. The strength of the medium-sized company is its individual solutions – from compact plants to computer-controlled, megawattscale plants, from waste recycling plants to biomethane refineries. This flexibility has also come about as a result of the materials used: WELTEC constructs digesters from corrosionresistant stainless steel. This not only ensures the plant has a long service life, it also guarantees a consistently high standard around the world. An additional benefit is the short time it takes to construct the stainless steel tank. Once the plant is complete, experienced service engineers, CHP plant specialists and the company’s own biological laboratory are available as professional partners at the operator’s side to ensure the plant’s efficient operation. WELTEC BIOPOWER GmbH Zum Langenberg 2 49377 Vechta Germany P H O NE +49 (0)4441 99978-0 Fa x +49 (0)4441 99978-8 EMail [email protected] Web www.weltec-biopower.de y e a r fo u n d e d 2001 Emp l oy e e s 80 The biogas park in Könnern, Germany – one of the world’s largest biomethane plants full-Service provider components & operator, Pl anner Research & Substrate & Advisor development 85 COMPANIE S UTS Mixer UTS Separator Biogas plant Dagenham/London, UK (1.5 MWel & 1.6 MW th, food waste) Patented UTS Service-Box Biogas plant Jinan, China (350 Nm3 /h, biomethane to fuel, food waste) UTS Biogastechnik GmbH Reliable biogas technology. This statement reflects over 20 years of experience and equipment supplied to more than 1,600 biogas plants. UTS Biogastechnik GmbH Zeppelinstraße 8 85399 Hallbergmoos Germany P H O NE Founded on innovative products, UTS – a member of the Anaergia group – has become one of the leaders in the biogas industry over the last 20 years. UTS’s high quality and highly reliable solutions are guaranteed by numerous internationally patented products and processes. +49 (0)811 99884-0 Fa x +49 (0)811 99884-450 EMail [email protected] Web www.uts-biogas.com Y EA R F O UN D E D 1992 as U.T.S. Umwelt-Technik-Süd GmbH 2007 UTS Biogastechnik GmbH since Emp l oy e e s approx. 100 In 1992, UTS started delivering robust equipment for liquid manure treatment (pumps and mixers) in close cooperation with farmers. During the years that followed, UTS designed and supplied standardised compact biogas plants in a range of different installed electrical capacities. In addition, UTS has constantly strengthened its competence in the conversion of organic waste into energy using substrates such as dry poultry faeces, slurry, food waste, slaughterhouse waste and sugar beet pulp. To operate a biogas plant efficiently and treat the associated substrates flows (e.g. viscous sludges with high organic load) effectively, UTS has companies 86 developed a specific product series “made in Germany”. Rugged submersible pumps and hydraulic/electric mixers have formed part of the UTS product range for some time. Serviceability, safety and environmental protection are combined perfectly in UTS’s patented Service-Box for mixer maintenance, while the UTS separator demonstrates superior performance in liquid/solid separation. Whether you want to establish a new biogas plant or expand, adapt or refurbish an existing one, whether the plant is small or large (several MWs), farm-based, industrial or municipal: The knowledge and experience of UTS Biogastechnik GmbH will ensure that you benefit from high-level services and products. From a detailed feasibility study and concept design to commissioning your biogas plant, UTS applies mature and reliable solutions that are state-of-the-art. UTS’s experts also assist you as technical and biological consultants with the operation of your biogas plant around the clock. full-Service provider components & operator, Pl anner Research & Substrate & Advisor development Wolf System GmbH Your competent partner for the construction of reinforced concrete tanks of any kind Wolf System GmbH Am Stadtwald 20 94486 Osterhofen Germany Phone Mantled reinforced concrete tanks (digester) WOLF SYSTEM has gained a name for itself as one of the leading operations in Europe in the field of storage tank construction. The WOLF SYSTEM storage container construction programme ranges from chip silos to large-capacity storage tanks for industry, from slurry or water reservoirs and biogas plants to large sewage plants. Storage tank diameters and heights of up to 50 m are made possible +49 (0)9932 37-0 Industrial biogas plant for feed-in into the natural gas grid fa x by the special, technically well-engineered WOLF SYSTEM metal shuttering without wall bushing tie bolts and distance tubes. This guarantees the highest level of leakproofness. +49 (0)9932 2893 EMail [email protected] web www.wolfsystem.de Y EA R F O UN D E D No matter what it is: Round reinforced concrete storage tanks as well as individual prefabricated houses and constructions for agriculture, industry and the commercial sector. With WOLF SYSTEM you have got the right partner. 1966 E M P L O Y EE S > 3,000 ( in Europe) Wulf Johannsen KG GmbH & Co. Your Success – Our Motivation Wulf Johannsen KG GmbH & Co. offers an extensive range of services for biogas engines, from fault resolution and maintenance/inspection to repairs and spare parts provision. Its experienced electrical team also advises on engine management and power unit control, and provides support with remote data transmission. Specially trained service employees provide individual, comprehensive support on site. The company’s engine experts are located in Kiel. Their over 80 years of experience speak for themselves, with DIN EN ISO 9001, 14001, 50001, SCC**, the RAL quality mark and “Sicher mit System” quality seal certificates generating confidence and guaranteeing good-quality work. The national subsidiaries and support centres of the entire STORM Group ensure flexibility and speed. As one of the largest engine specialists in Europe not tied to any specific manufacturer, it offers a 24/7 service. Wulf Johannsen KG GmbH & Co. Marie-Curie-Straße 19 24145 Kiel Germany P H O NE +49 (0)431 58795-0 Fa x +49 (0)431 58795-43 The WULF JOHANNSEN Full Service for your biogas engine includes: • fault resolution • maintenance/inspection • ECOS ® minor and major inspections • ECOS ® exchange parts such as cylinder heads, and oil and water pumps, etc. EMail [email protected] Web www.wulf-johannsen.de y e a r fo u n d e d 1932 Emp l oy e e s Plant I in Kiel-Wellsee 50 Service line +49 800 BIOGAS 112 +49 800 246427 112 full-Service provider components & operator, Pl anner Research & Substrate & Advisor development 87 COMPANIE S Viessmann Group Viessmann Werke – A single source of biogas expertise Viessmann Werke GmbH & Co. KG Viessmannstraße 1 35108 Allendor f (Eder) Germany Phone +49 (0)6452 70 0 Fa x +49 (0)6452 70 2780 The Viessmann Group is an internationally leading manufacturer of heating technology systems. The family-run company, which was founded in 1917, employs around 11,400 people and has a group turnover of 2.1 billion euros. With 27 production companies in 11 countries, sales companies and representative offices in 74 countries, as well as 120 sales subsidiaries worldwide, Viessmann is an actively expanding international company. 55% of the company’s turnover is generated abroad. With Schmack Biogas, one of the leading providers of biogas plants based on the wet anaerobic digestion principle, the biogas processing pioneer Schmack Carbotech and the BIOFerm brand providing technological expertise in the field of dry anaerobic digestion, Viessmann has the entire biogas technology sector covered. EMail [email protected] Biogas Comprehensive Range Web Energy crops Detached houses Biowaste Biogas plant 1 Vitomax 200-LW 2 CHP Vitobloc 3 Buffer storage for heating water www.viessmann.com Slurry or manure School Y e a r fo u n d e d CHP/local boiler 1917 Direct injection to the gas grid S ALE S V O LU M E CHP/local boiler Heating system Gas upgrading from biogas to biomethane € 2.1 billion District heating network 1 Housing estate Energiepflanzen 2 3 Balancing Emp l oy e e s Injection 11,400 Biomethane take-off Feed-in of 100 % green energy The complete biogas service from Viessmann: everything from a single source Schmack Biogas – A full-service provider of biogas plants Schmack Biogas GmbH (Viessmann Group) Bayernwerk 8 92421 Schwandor f Germany Phone +49 (0)9431 751-0 Schmack Biogas is one of the leading providers of biogas plants. The company has been setting standards with highly efficient and profitable biogas plants since 1995. Its product portfolio covers plant systems with outputs ranging from 50-kWel compact plants up to 20-MWGas gas feed-in plants. With system solutions for wet and dry anaerobic digestion, Schmack Biogas covers the full spectrum of fermentation technologies. The range of services spans the entire biogas value-added chain. In addition to providing technical support, the company also offers a comprehensive microbiological service. Schmack has received many awards for its innovative technologies and processes. Schmack is also active on an international level. With Schmack Biogas Srl in Bolzano and BIOFerm Energy Systems in Madison/Wisconsin, the company has subsidiaries in Italy and the USA. Biogas plant in Tongeren, Belgium Agricultural biogas plant in Fischbach, Germany FAX +49 (0)9431 751-204 EMail [email protected] Web www.schmack-biogas.com Y e a r fo u n d e d 1995 companies 88 full-Service provider components & operator, Pl anner Research & Substrate & Advisor development BIOFerm – Technological expertise in the field of dry anaerobic digestion BIOFerm GmbH (Viessmann Group) c/o Schmack Biogas GmbH Bayernwerk 8 92421 Schwandor f Germany First dry AD plant in the Americas: University of Oshkosh, USA Filling of a digester Phone +49 (0)9431 751-0 The BIOFerm brand provides dry anaerobic digestion solutions. These innovative processes reclaim the energy from non-pumpable biogenic waste (e.g. municipal biological waste and residues from agriculture and landscape management work). The requirements placed on the raw materials are minimal; there is no need to pretreat the biomass. The dry anaerobic digestion technology is already globally well established. All plants can be expanded in a modular manner and comply with the most stringent requirements in terms of operational safety. Fa x +49 (0)9431 751-204 EMail [email protected] Web www.bioferm-energy.com Schmack Carbotech – Biogas upgrading pioneer Schmack Carbotech, a company of the Viessmann Group, is one of the pioneers and market leaders in biogas purification with more than 30 years of experience in the development, engineering and manufacture of turnkey gas upgrading plants. The in-house technology is based on the pressure swing adsorption (PSA) process. The company combines the know-how of almost 70 industrial plants installed in Europe with continuous development of the PSA, providing a highly efficient process and the lowest utilities consumption of its kind. Schmack Carbotech specialises in biogas and landfill gas upgrading plants to produce bio methane for grid injection and CNG vehicle fuel. Schmack Carbotech GmbH (Viessmann Group) Natorpstraße 27 45139 Essen Germany Phone +49 (0)201 50709-300 FAX +49 (0)201 50709-500 EMail [email protected] Web www.carbotech.info Y e a r fo u n d e d 1989 Biogas upgrading plant, Aiterhofen, 2,000 Nm3 /h Interior view of a biogas upgrading container module full-Service provider components & operator, Pl anner Research & Substrate & Advisor development 89 COMPANIE S Flygt Mixer SR 4600 Flygt Mixer Banana 4430 Flygt Submersible Pump F 3153 Flygt Midsize Mixer 4460 XYLEM WATER SOLUTIONS Xylem develops high-quality submersible pumps and agitators for the efficient mixing and clog-free pumping of substrates XYLEM WATER SOLUTIONS AB Gesällvägen 33 Sundbyberg, Stockholm 174 87 Sweden Only efficient mixing of the substrate will guarantee perfect mixing results. This is achieved by creating a strong, highly efficient flow throughout the entire pit. The strength of the flow is dependent on the thrust. The costs of the power consumption required to generate this thrust are determined by hydraulic efficiency, rotational speed and propeller diameter. P H O NE +46 (0)8 475600 Fa x +46 (0)8 4756900 EMail [email protected] Web www.xyleminc.com Y e a r fo u n d e d since 1956 since 2011 manufacturer of Flygt pumps operating under the company name of Xylem Water Solutions S ALE S V O LU M E US$ 3.8 billion Emp l oy e e s 12,500 companies The “Flygt Banana” agitator is a submersible mixer with an extremely large propeller diameter measuring 2.5 m. With a low rotational speed (30 to 50 revolutions per minute) and a large propeller diameter, it generates more thrust per kilowatt and is more effective than compact mixers. The propeller blades are made from glass-fibred reinforced polyurethane, and the agitator is guided on a square pipe. Banana agitators are installed at a fixed height. The compact 4600 series mixers ensure the prevention of floating layers and sedimentation thorough mixing, and are installed in a manner 90 that allows their height and direction to be adjusted. These mixers are available with rated outputs of between 2.5 and 25 kW and with propeller diameters of between 368 and 766 mm. The Mid-size Mixer 4460 is equipped with a 1.3 m propeller and runs at 60 – 80 rpm. With its high thrust per kW it provides very good homogenisation. The mixers are ready for flexible installation. Chopper pumps in the F 3000 product series are well-suited to pumping substrates which have a high dry substance content. The rotary cutters have hardened edges which, working in combination with the cutting plate, effortlessly chop fibrous materials. F pumps have a wide output range (with a volumetric flow rate of up to nine cubic meters per minute and a pumping head of up to 70 m of water column). They are specifically designed for pumping liquid manure with long fibre content and fermentation residue. full-Service provider components & operator, Pl anner Research & Substrate & Advisor development Foto: Alekss/Fotolia German Biogas Association Europe’s most powerful organisation in the field Structure of the German Biogas Association 35 employees Committee Seven members elected for a term of office lasting four years At the headquarters, in the capital and in five regional offices Board of Trustees Speakers of regional groups, working groups and advisory bodies, representatives of other associations > 4,800 members Organised into 23 regional groups, represented by regional group speakers: operators of biogas plants / companies & manufacturers scientific institutions / lawyers / banks interested private individuals etc. The German Biogas Association’s permanent employees German Biogas Association (Fachverband Biogas e.V.) Headquar ters Angerbrunnenstraße 12 85356 Freising Germany P H O NE +49 (0)8161 9846-60 Fa x +49 (0)8161 9846-70 The German Biogas Association annual conference: plenary sessions, workshops and a specialist trade fair The German Biogas Association unites operators, manufacturers and planners of biogas plants, representatives from science and research and all those interested in the industry. Since its establishment in 1992, the association, which has more than 4,800 members, has become Europe’s most powerful organisation in the field of biogas. In addition to its headquarters in Freising, it has an office in the capital, Berlin, as well as five regional offices throughout Germany. The German Biogas Association currently employs a total of 35 permanent members of staff. EMail [email protected] Web www.biogas.org Hannover Berlin Areas of responsibility The German Biogas Association campaigns for the increased use of biogas technology through political lobbying at EU, national and state level. Düsseldorf Erfurt Burglengenfeld Bräunlingen Freising German Biogas Association: headquarters in Freising, office in the capital Berlin, and five regional offices in Bräunlingen, Burglengenfeld, Düsseldorf, Erfurt and Hanover companies Furthermore, it encourages the exchange of biogas-related information and knowledge, for instance through collecting, evaluating and spreading knowledge of scientific findings and practical experience, or by means of conferences, exhibitions and other 92 events. 2015 will see The Biogas – 24th International Annual Conference and Exhibition. With more than 7,000 visitors, it has become the most important meeting place for biogas industry stakeholders from Germany and across the globe. As a consequence of both participation in EU projects and membership of the European Biogas Association (EBA), the German Biogas Association actively promotes and instigates international experience exchange. The German Biogas Association is represented by a seven-member committee elected by the general meeting of members. The association’s 4,800 members nationwide are organised into 23 regional groups, which guarantees that effective contact networks are established at regional, national and international level. Sunbeam Communications Your Full-Service Agency for Renewable Energy and Energy Efficiency As a well-versed communications provider, Sunbeam develops individual solutions for building, maintaining and optimising your marketing communications. We have been supporting companies, associations and government ministries in the field of renewable energy and energy efficiency for the past 15 years in the fields of public relations, new media and communication design. Sunbeam combines high-quality services with sector knowledge, and maintains good contacts with media representatives and stakeholders within the industry. Public relations (PR) Sunbeam can support you in establishing and expanding your publicity and communication network with customers and the general public. We provide a comprehensive PR consultancy service, develop targeted publicity campaigns and provide committed and reliable support for communication projects and ongoing PR budgets. New media Sunbeam also provides planning and implementation services for website projects incorporating accessible and responsive designs, and can also assist with app implementation. We specialise in TYPO3, the leading open-source content management system for websites. Members of our team include renowned experts who have published technical books on the subjects of designing and implementing web presences. Sunbeam GmbH Zinnowitzer Straße 1 10115 Berlin Germany Phone +49 (0)30 726296-300 Communication design Our designers develop products for visual communications between companies and their customers. Sunbeam conceives and produces creative layouts for high-quality print products such as catalogues and brochures, and takes care of the entire printing process. Fa x +49 (0)30 726296-309 EMail [email protected] Web www.sunbeam-communications.com y e a r fo u n d e d 1998 RENI | Renewables Insight Through our globally available industry reports, we provide information on the performance of companies operating within the renewable energy industry. Our customers’ products and services are presented in high-quality graphics and editorials. In addition, our industry reports provide comprehensive information on the current market situation. S ALE S V O LU M E € 1.4 million e mp l oy e e s 22 Biogas an all-rounder NEW OPPORTUNITIES FOR FARMING, INDUSTRY AND THE ENVIRONMENT — 2015 | 4th fully revised edition — Inverter, Storage and PV System Technology Industry Guide 2014 PV POWER PLANTS 2014 Industry Guide EUROPEAN edition We combine high-quality communications with expertise in markets and technologies in the fields of renewables and energy efficiency. 93 P U B LI S HER S Foto: chulja/Fotolia Trade Fairs and Events An Overview for January 2015 – November 2016* Date Trade Fair/Event Web Location Jan. 13 – 14, 2015 Biogas Infotage 2015 www.renergie-allgaeu.de/index.php/ veranstaltungen/biogas-infotage Buchloe (Germany) Jan. 16 – 25, 2015 nature.tec / Internationale Grüne Woche 2015 naturetec-igw.de / www.gruenewoche.de Berlin (Germany) Jan. 19 – 20, 2015 12. BBE/UFOP-Fachkongress “Kraftstoffe der Zukunft 2014” www.kraftstoffe-der-zukunft.com Berlin (Germany) Jan. 21 – 22, 2015 Lignofuels 2015 www.wplgroup.com/aci/conferences/ eu-eef6.asp Madrid (Spain) Jan. 27 – 29, 2015 24. Jahrestagung des Fachverband Biogas e. V. mit BIOGAS-Fachmesse www.biogastagung.org Bremen (Germany) Jan. 27–28, 2015 5. Mitteleuropäische Biomassekonferenz 2015 www.biomasseverband.at tba Feb. 10 – 12, 2015 E-world energy & water 2015 www.e-world-essen.com/de/aktuelles Essen (Germany) Feb. 25 – 27, 2015 World Sustainable Energy Days www.wsed.at/en/registration-info Wels (Austria) Feb. 25 – 27, 2015 BioEnergy Italy http://www.bioenergyitaly.com/en Cremona (Italy) 2015 tba (Feb. 26 – March 1, 2014) Iran International Renewable Energy & Energy Saving Exhibition Tehran www.energysaving.ir/English Tehran (Iran) March 9 – 11, 2015 IRES-Symposium www.eurosolar.de/de/index.php/ ires-konferenzreihe/ires-2015 Düsseldorf (Germany) March 11 – 13, 2015 SEE Exhibitions and Eco Forum on Green Energy & Waste Management’15 viaexpo.com/en/pages/ ee-re-exhibition Sofia (Bulgaria) www.new-energy.de Husum (Germany) www.zukunftsenergien-nordwest.de Bremen (Germany) March 19 – 22, 2015 New Energy Husum March 20 – 21, 2015 Zukunftsenergien Nordwest Job- & Bildungsmesse March 26 – 28, 2015 Klimaenergy 2015 www.fierabolzano.it/klimaenergy/de Bolzano (Italy) April 23 – 26, 2015 agra – die Landwirtschaftsausstellung www.agra2015.de in Mitteldeutschland Leipzig (Germany) May 4 – 6, 2015 AEBIOM European Bioenergy Conference 2015 www.aebiom.org/conference Brussels (Belgium) May 6 – 8, 2015 ICCI www.icci.com.tr Istanbul (Turkey) May 14 – 17, 2015 25. BraLa (Brandenburgische Landwirtschaftsausstellung) www.brala.eu/index.php Paaren im Glien (Germany) May 3 – June 30, 2016 IFAT resources.innovations.solutions. www.ifat.de Munich (Germany) June 1 – 4, 2015 31th International Fuel Ethanol Workshop & Expo www.fuelethanolworkshop.com/ema/ DisplayPage.aspx?pageId=Home Minneapolis (USA) June 1 – 4, 2015 23nd EU BC&E 2015 (European Biomass Conference and Exhibition) www.conference-biomass.com/ Conference.405.0.html Vienna (Austria) 2015 tba (June 4 – 7, 2014) AGRO www.agroexpo.de Kiev (Ukraine) June 2 – 3, 2015 8. Biogas Innovationskongress www.biogas-innovationskongress.de Osnabrück (Germany) June 9 – 11, 2015 Renewable Energy World Conference & Expo Europe www.renewableenergyworld-europe. com Amsterdam (Netherlands) June 9 – 11, 2015 POWER-GEN Europe www.powergeneurope.com/index.html Amsterdam (Netherlands) 95 T r a d e fa i r s a n d e v e n t s Date Trade Fair/Event Web Location June 14 – 16, 2016 DLG Feldtage www.dlg-feldtage.de/index.html Gut Mariaburghausen, Haßfurt (Germany) June 22 – 25, 2015 A&WMA’s 108th Annual Conference & Exhibition ace2015.awma.org/ Raleigh (USA) July 10 – 13, 2015 67. Tarmstedter Ausstellung www.tarmstedter-ausstellung.de/ Tarmstedt (Germany) Aug./Sep. 27 – 1, 2015 Eco – Style http://www.vcb.cz/en/ calendar/296-eco-style Ceske Budejovice (Czech Republic) Sep. 4 – 6, 2015 Forst Live Nord 2015 www.forst-live.de/nord/index.htm Soltau (Germany) Sep. 7 – 9, 2015 SOLTEC – Energie. Umwelt. Zukunft http://www.soltec.de Hameln (Germany) Sep. 10–13, 2015 MELA www.mela-messe.de Mühlengeez (Germany) 2015 tba (Sep. 10 – 11, 2014) Progress in Biogas III http://www.progress-in-biogas.com Stuttgart (Germany) Sep. 16–17, 2015 VKU-Stadtwerkekongress 2015 www.innovation-congress.de/Veranstaltungen/Veranstaltungsuebersicht/ VKU-Stadtwerkekongress-2015/ Stadtwerke-Motor-fuer-Wettbewerbund-Innovation.html Osnabrück (Germany) 2015 tba (Sep. 16 – 17, 2014) 11. Internationales Symposium “Werkstoffe aus Nachwachsenden Rohstoffen” www.narotech.de Erfurt (Germany) Sep. 16 – 19, 2015 Electric Power & Renewables Energy Indonesia Jakarta www.tradefairdates.com/ElectricPower-Renewable-Energy-IndonesiaM7482/Jakarta.html Jakarta (Indonesia) Sep. 27 – 28, 2015 GAT – Gasfachliche Aussprachetagung www.gat-dvgw.de Essen (Germany) Oct. 1 – 4, 2015 RENEXPO® 2015 www.renexpo.de Augsburg (Germany) Oct. 6 – 9, 2015 BioPol 2015 (5th International onference on Biodegradable PolyC mers and Sustainable Composites) www.biopol-conf.org Donostia – San Sebastian (Spain) Oct. 13 – 16, 2015 Pollutec www.pollutec.com Paris (France) Oct. 14 – 17, 2015 EEE-Expo Bukarest www.eee-expo.ro/home Bucharest (Romania) 2015 tba (Oct. 26 – 30, 2014) Biogas Science Wien http://biogas2014.boku.ac.at/#!/top Vienna (Austria) 2015 tba (Nov. 4 – 7, 2014) DepoTech www.depotech.at/ Leoben (AT) Nov. 8 – 14, 2015 AGRITECHNICA www.agritechnica.com Hanover (Germany) http://www.100-ee-kongress.de/ Kassel (Germany) 2015 tba 100% Erneuerbare Energien (Nov. 11 – 12, 2014) Kongress Nov. 25 – 26, 2015 biogas – expo & congress www.biogas-offenburg.de/ Offenburg (Germany) 2016 tba (Jan. 27 – 29, 2015) Jahrestagung des Fachverband Biogas e. v. mit Biogas-Fachmesse http://www.biogastagung.org/de/ tba (Germany) Sep. 5 – 9, 2016 IUAPPA World Clean Air Congress www.iuappa.com Busan (Korea) Nov. 15 – 18, 2016 Energy Decentral http://www.energy-decentral.com Hanover (Germany) Nov. 15 – 18, 2016 Eurotier http://www.eurotier.com/home-en.html Hanover (Germany) 2016 tba biogas – expo & congress (Nov. 25 – 26, 2015) www.biogas-offenburg.de Offenburg (Germany) *Last updated: November 2014; subject to changes. Sunbeam cannot guarantee the accuracy or completeness of the information. Please check this against the information on the websites listed. T r a d e fa i r s a n d e v e n t s 96 Published by Important notice Sunbeam GmbH This brochure, all parts thereof and the website are The texts and illustrations in this brochure were pro- Zinnowitzer Straße 1 protected by copyright. The reproduction, altera- duced with the greatest possible care and to the 10115 Berlin tion and any other type of use of the brochure or best of the authors’ knowledge. As errors cannot be Germany parts thereof except for purely private purposes ruled out and both texts and illustrations are subject is prohibited except with the prior approval of to change, we draw your attention to the following: Phone Sunbeam GmbH. This shall apply in particular to Sunbeam GmbH gives no guarantee with regard to reproduction/copies, translations, microfilming and the timeliness, accuracy, completeness or quality of storage in electronic systems. the information provided in this brochure. Sunbeam GmbH accepts no liability for damages, material or +49 (0)30 726 296-300 Telefax +49 (0)30 726 296-309 www.sunbeam-communications.com The citing of text by media representatives and non-material, which are incurred through the use political decision-makers is expressly desired and or non-use of the information provided or which are Responsible under the German Press Act does not require prior approval, provided that the caused directly or indirectly by the use of erroneous Dr Roland Ernst source of any text used is also cited. and incomplete information, except where deliberate or grossly negligent culpability can be proven. Company entries are the sole responsibility of the respective company. © 2014 Sunbeam GmbH Idea and concept Sunbeam GmbH C o n c e p t a d v i s o r, s p e c i a l i s t advisor and editorial cooperator Legal Information, Important Notice and Picture Credits German Biogas Association (Fachverband Biogas e.V.) Angerbrunnenstr. 12 85356 Freising Germany Phone +49 (0)8161 98 46-60 Telefax +49 (0)8161 98 46-70 [email protected] www.biogas.org Managing editor Dr Roland Ernst Picture credits Industry profile authors Companies Christian Dany The illustrations printed in the company and pub- Thomas Gaul lisher profiles (pp. 48–93) were supplied by the Bernward Janzing respective companies, if not otherwise stated. Dierk Jensen Other parts Christian Mühlhausen See captions Hinrich Neumann Infographics and tables Layout and composition Data in infographics and tables obtained derMarkstein.de, Petra Plociennik from the German Biogas Association. Photo editor and image processing Tom Baerwald Charts derMarkstein.de Photo: Tom Baerwald We b s i t e d e s i g n a n d editorial system Sunbeam GmbH Tr a n s l a t i o n “ T h e I n d u s t r y ” Sprachwerkstatt Berlin Print Druck und Verlagshaus FROMM GmbH & Co. KG, Osnabrück climate-neutral We b s i t e www.german-biogas-industry.com 97 Foto: muta/Fotolia photo: muta/Fotolia The first part of „Biogas: an allrounder“ contains important facts and figures concerning biogas production and use. The second part introduces over 60 companies, from full-line system suppliers to specialised equipment manufacturers and competent engineering firms www.german-biogas-industry.com New opportunities for farming, industry and the environment — 2015 Biogas is an all-rounder among renewable energies. It can be converted to electricity and heat or be used as a fuel and natural gas equivalent. Germany is the undisputed market leader in this versatile and forwardlooking industry. Biogas plants made in germany are in global demand and are preferred because of their superior technology. They improve the independence and economic strength of municipalities and regions. Biogas: an all-rounder – Biogas: an all-rounder Biogas an all-rounder New opportunities for farming, industry and the environment — 2015 | 4th fully revised edition —