tonnes - Stora Enso
Transcription
tonnes - Stora Enso
39349_ER-cover-E.fh 28.3.2001 19:16 Page 1 “Stora Enso complies with principles “Responsibility” Stora Enso Oyj P.O. Box 309 • FIN-00101 Helsinki • Finland Calling address: Kanavaranta 1 Tel. +358 2046 131 • Fax +358 2046 21471 Stora Enso P.O. Box 70395 • SE-107 24 Stockholm • Sweden Calling address: World Trade Center, Klarabergsviadukten 70 Tel. +46 8 613 66 00 • Fax +46 8 10 60 20 Stora Enso International Office 9, South Street • London W1K 2XA • U.K. Tel. +44 2084 321 500 • Fax +44 2084 321 600 www.storaenso.com [email protected] of sustainable development” E N V I R O N M E N TA L R E P O R T 2 0 0 0 Composite 39349_217ERe2sh_E_UUSI 28.3.2001 21:07 Sivu 2 2000 2000 in brief in brief • The year 2000 was marked by continued improvements in environmental performance. In spite of a slight 4% increase in production of pulp, paper and board, reductions were achieved in waste disposal (3%), in emissions of SO2 (4%), NOx (5%), and in discharges to water of COD (2%), AOX (4%), and Nitrogen (4%). Discharge of Phosphorus increased by 2%, compared to the previous year. • Bio-fuels accounted for a higher proportion of the fuel consumption in Stora Enso’s energy production – 64%, compared to 62% in 1999. • There was steady progress with the introduction of forest certification systems in countries where Stora Enso operates. At the end of the year, practically all the company’s domestic wood supply in Finland had been certified according to the national FFCS scheme. The FSC and PEFC schemes also cover increasing areas in Sweden. In the U.S., Stora Enso’s woodlands operations have been certified under the national SFI scheme, and been third-party-verified. Similarly, ISO 14001 certification has been granted to the management practices of Stora Enso’s forest plantations in Portugal. Continued efforts are being directed towards full documentation of the origin of fibre in order to guarantee the sustainability of wood flows. • The new Base Port transport system, for goods exported from Swedish mills to customers in continental Europe and elsewhere overseas, started to operate, and early indications confirm that the expected considerable environmental improvements will be realised. • Ten new ISO14001 certifications were achieved. By the end of 2000, 80% (76%) of the company’s pulp, paper and board production capacity was covered by ISO 14001 and/or EMAS. For Stora Enso’s recently acquired operations in the U.S., it has been decided that all production units, including forest resources, will be ready for certification by the end of 2001. • Stora Enso has decided that systematic environmental management procedures will be implemented in the company’s service units, as they already are implemented in the production units. • A new set of environmental principles for transportation was defined during the year. • Environmentally related investments amounted to EUR 103 million, and operational environmental costs were EUR 127 million in 2000. • Stora Enso was also acknowledged for its performance. The Group was listed to the Dow Jones Sustainability Group Index (DJSGI) for the second time in 2000. This index continues to show higher than average shareholder value for companies which operate in a sustainable manner. • The acquisition of Consolidated Papers, Inc. took place in August 2000. The emission data and other environmental figures refer to the whole year. Former Consolidated Papers mills are also included in the 1999 figures. However, the environmental costs and investments only cover the period September–December 2000. 2 Stora Enso Environmental Report 39349_217ERe2sh_E_UUSI 28.3.2001 21:07 Sivu 3 Contents Contents Contents Con We take the lead . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 Proud to be responsible . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 Environmental and social responsibility policy . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 Old-growth forest – definitions and options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 Environmental performance 2000 Environmental management . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 Environmental investments and annual costs . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 Wood procurement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 Energy . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18 Waste and residuals management . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21 Recycled fibre . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22 Transport . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24 Resource utilisation and environmental performance 2000 . . . . . . . . . . . . . . . . . . 26 Infractions, complaints and corrective measures . . . . . . . . . . . . . . . . . . . . . . . . . . 32 Contents Examination report . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34 Contact information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35 Glossary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39 Stora Enso Environmental Report 3 39349_217ERe2sh_E_UUSI 28.3.2001 21:07 Sivu 4 WeWetake the take the lead lead Stora Enso is an integrated forest products company producing magazine papers, newsprint, fine papers and packaging boards, areas in which the Group is a global market leader. Stora Enso also conducts extensive sawmilling operations. To strengthen its market position and better serve customers in the United States, the company acquired the U.S.-based, Consolidated Papers, Inc. in 2000. Selective core business expansion is also under way in Europe, North America and Asia. Today Stora Enso’s sales total EUR 13 billion and annual paper and board production capacity approximately 15 million tonnes. Some 45,000 persons are employed in more than 40 countries and the company’s shares are listed in Helsinki, New York and Stockholm. As an integrated company, Stora Enso is able to satisfy a significant part of its raw material needs internally, ensuring continuity of production. The company owns approximately 2.6 million hectares of forest-land in Finland and Sweden and some 0.3 million hectares in the United States as well as significant forest areas in Canada and Portugal. Power plants at Stora Enso’s mills provide approximately 40% of the company’s power requirements. Stora Enso’s annual pulp trading is in balance. Stora Enso’s environmental and social responsibility policy is committed to developing business towards ecological, social and economic sustainability. This is recognised as a shared responsibility, enabling the continuous improvement in operations. Financial highlights Sales, EUR million Operating profit, EUR million – before non-recurring items, EUR million – % of sales Profit before tax and minority interests, EUR million – before non-recurring items, EUR million Profit for the period, EUR million Capital expenditure, EUR million – % of sales Interest-bearing net liabilities, EUR million 2000 *) 1999 13,017.0 10,635.7 2,371.3 1,399.6 1,925.6 1,296.6 14.8 12.2 2,099.0 1,653.3 1,435.0 769 5.9 1,142.7 1,039.7 746.4 740 7.0 5,183 4,783 *) Figures referring to former Consolidated Papers, Inc. cover only four months. 4 Stora Enso Environmental Report Capital employed, EUR million Return on capital employed (ROCE), % – before non-recurring items, % Debt/equity ratio Earnings per share, EUR – before non-recurring items, EUR Cash earnings per share, EUR – before non-recurring items, EUR Equity per share, EUR Dividend per share, EUR Market capitalisation, EUR million Deliveries of paper and board, million tonnes Deliveries of timber products, million m3 Average number of employees 1) Proposed dividend 2000 *) 13,903 20.7 16.8 0.59 1.77 1.32 3.16 2.61 9.4 0.45 1) 11,733 1999 10,941 13.1 12.1 0.78 0.98 0.89 2.18 2.09 7.8 0.40 13,209 13.0 4.9 41,785 12.0 4.6 40,226 39349_217ERe2sh_E_UUSI 28.3.2001 21:07 Sivu 5 Mission We promote communication and the well-being of people by turning renewable fibre into paper, packaging and processed wood products. Proud to be responsible Deputy CEO Björn Hägglund Stora Enso is now a truly global company, producing in 19 countries and selling goods in 36 countries, in almost every continent. We operate a long production chain with value added at each stage, from planting forests right through to paper merchandising. The global scale of this value chain at least theoretically gives us considerable freedom of action, for instance through investment and disinvestment opportunities. We can react to changes in the business environment by relocating the company’s activities, either geographically, or within the value chain. But this freedom has to be exercised with responsibility. A global company must affirm its overall legitimacy through all its actions, and show responsibility even in the toughest business decisions. This is also vital in engendering a sense of pride among our own employees. Proud employees are the best advertisement for recruiting new talent to the company. This responsibility is most clearly visible in the company’s achievements related to environmental and social issues. So far, most of our systematic approaches and transparent reporting policies in terms of sustainability have been directed towards environmental issues. The year 2000 has been a year of progress in this respect. We have made improvements within many of the traditional parameters used to measure our industry. The high share of bio-fuels, which now account for 64% of our total fuel consumption in production, strengthens our reputation as an energy-efficient company. We have been able to make better use of raw materials, resulting in the generation of less waste, and emissions have also generally been reduced. Our investments in treatment technology are up, compared with the previous year due to a few new installations, but I expect that environmental investments will be decreasing in the future. This does not mean that progress will be halted, however. We will be able to further improve by increasingly focussing on managing our environmental quality work systematically, through environmental management systems. Even more units have implemented standardised systems during the past year, and we have set ambitious Stora Enso Environmental Report 5 39349_217ERe2sh_E_UUSI 28.3.2001 21:07 Sivu 6 targets to achieve similar standards within our newly acquired operations in the U.S. Furthermore, during 2000 we have decided to enhance the systematic environmental work of our own service units. We have now started to operate a new transport system for deliveries from Swedish mills to continental and overseas customers. Experiences so far prove that this system will lead to great improvements in fuel consumption and emission levels. This means, that the environmental profile of our products will continue to improve, to the benefit of our customers. During the year we have developed a new set of environmental principles for transportation, which highlights continual and systematic improvements in the services we purchase, as well as in our own transport operations. In close co-operation with our customers we are continuing to look at ways to improve the supply chain all the way to the final customer. Even if various labelling schemes are already being applied with some success, I feel there is still room for improvement. One specific challenge in this context is providing more extensive environmental information for our customers. In particular, we need a tool for communicating information that reflects the holistic perspective we all increasingly share. Wood procurement constitutes a fundamental link in our production chain, whether the source is our own woodlands or purchases from domestic or foreign suppliers. During the year 2000 we have renewed our fibre strategy to ensure that the supply of fibres fully meets our requirements in economic, social and environmental terms. The strategy covers wood, pulp, and recovered fibres. Our wood supply is to an increasing extent covered by forest certification, and even where no such systems are yet in place, we are actively working to ensure that the origin of fibre is systematically documented. Vision Looking ahead, I see still more opportunities to improve our environmental quality work. I trust that the strong commitment of managers and employees throughout the company will continue to generate improvements, as it has ever since our first systematic approaches were initiated decades ago. The concept of sustainability is naturally an inherent aspect of our operations, since our products are both based on a renewable natural fibre source, and themselves recyclable for reuse or energy recovery. Where social questions are concerned, we are now at the beginning of an important process. We must still further develop our capabilities in the field of stakeholder management. We already have effective relations with the most easily defined groups of stakeholders: employees, suppliers, and customers. We are now looking forward to working in closer dialogue with our other stakeholders – to find ways to set targets and report on the social aspects of sustainability. Although systematic monitoring and management tools concerning social, welfare or ethical issues are not yet in place, Stora Enso has already been looking closely into these issues. The natural starting point has been to screen Stora Enso’s existing policies, principles and management tools from the point of view of corporate social responsibility. This screening process has shown that while several of the cornerstones are already in place, there is still a need for a more systematic approach. Based on this notion Stora Enso has decided to define a code of conduct and formulate the first set of indicators tailored for monitoring the performance in terms of corporate responsibility. Deputy CEO Björn Hägglund Chairman of the Stora Enso Environment Committee We will be the leading forest products company in the world We take the lead in developing the industry Customers choose us for the value we create for them We attract investors for the value we create Our employees are proud to work with us We are an attractive partner for our suppliers Values Customer focus – We are the customers’ first choice Performance – We deliver results Responsibility – We comply with principles of sustainable development Emphasis on people – Motivated people create success Focus on the future – We take the first step 6 Stora Enso Environmental Report 39349_217ERe2sh_E_UUSI 28.3.2001 21:07 Sivu 7 Environmental and social responsibility policy Responsible business Stora Enso is committed to developing its business towards ecological, social and economic sustainability. These tasks are recognized as shared responsibilities within Stora Enso enabling a continuous improvement of our operations. Eco-perspective Stora Enso’s objective is to supply customers with products and services that satisfy various needs related to printed communication, packaging and construction purposes. These products are mainly produced from renewable raw materials, and are recyclable and safe to use. The concept of product life cycle guides our environmental activities and provides the framework for our efforts. We expect the same commitment from our suppliers and partners so that at every stage, from raw material to the end product, the impact on the environment will be minimized. Social respect As an international company, Stora Enso acknowledges its role as a model company in the global, national and local society. Our attitude shall be characterized by respect for the cultures, customs and values of individuals and groups in countries where we operate. When developing our business to earn credibility, we will comply with and when possible go beyond the requirements of national standards and legislation. Transparent interaction In order to continuously strengthen our operations and develop environmental and social issues in a sustainable way, Stora Enso considers an open discussion and interaction with all stakeholders, both governmental and non-governmental, as fundamental. Stora Enso Environmental Report 7 39349_217ERe2sh_E_UUSI 28.3.2001 21:07 Sivu 8 Old- growth forest – definitions and options Forest industry companies like Stora Enso are often asked about their old-growth forest policies. These questions reflect concern about the future of forests considered to have great biological or aesthetic value. One problem when discussing old-growth forests, however, is choosing from a wide range of possible definitions. This makes it important to look closely both at the whole concept, and at the various ways of dealing with the conservation and management of old-growth forests. Describing a forest as old could be taken to mean either that the trees are old, or that the site has always been forested. To an ecologist it might suggest an area with multiple canopy layers, large and very mature trees, with many epiphytes living on them, an abundance of dead trees and snags, and an uneven forest floor where thick moss covers decaying trunks. It is easy to believe that such forests have always been completely free from human interference. The term “old-growth” is often loaded with values, perceptions and opinions, although it can also be used neutrally as a classification category for forests that 8 Stora Enso Environmental Report have reached a certain stage of maturity. The biological, social and economical connotations are equally important, but the term itself is undoubtedly weighted towards biological factors. Biological features typical of old-growth forests The varying definitions of old-growth forest can involve combinations of different factors, such as forest structure and composition, the age and size of trees, the continuum of decaying wood, the amount of disturbance, or biodiversity values. But there are also certain factors that most definitions share in common. 39349_217ERe2sh_E_UUSI 28.3.2001 21:07 Sivu 9 Typical features Time Time is clearly a fundamental dimension of definitions for oldgrowth forest. The structure and composition of old-growth forests is the result of their long natural succession reaching a phase where a certain number of trees in the main canopy layer die off, creating openings enabling new seedlings to grow. The rate at which any forest develops also depends on site quality, species composition, and climate, so age cannot be used alone to define old-growth forests. Forest management guidelines may classify forests that have lived perhaps just 20 years longer than the normal regeneration cycle as old-growth forests requiring special attention. However, other factors such as the amount of decaying wood, levels of disturbance, and the presence of endangered species, are also carefully studied before management or conservation decisions are made. Biodiversity values Biodiversity values are not usually mentioned in the definitions of old-growth forests, even where the aim is to identify forests with high conservation value. However, the structure and composition typical of old-growth forests within specific climatic and biogeographical conditions correlate strongly with the occurrence of certain specialised plant and animal species. Disturbance The attribute “natural” is often linked with old-growth forests, usually referring to the natural regeneration of a forest long ago, and also to a long succession without significant human interference. Although most old-growth forests have not been exploited by man during recent history, biologically valuable old-growth forests may well have been developed at some time in the past, perhaps even repeatedly, when ancient fields were cleared for shifting cultivation, or cuttings made to produce charcoal. Ecosystems are adapted to withstand natural disasters of certain types, extents and frequencies. Boreal forests on dry and mesic soils have in general been naturally subject to forest fires at average intervals of between 50 and 300 years. Some plant and animal species are dependent on undisturbed forests, while others thrive in habitat at different successional stages following forest fires and other disturbances. Man has reduced the incidence and particularly the scale of such natural disturbances, but has greatly increased the frequency of other unnatural disturbance. In general, biodiversity must be conserved with a much broader perspective on forest dynamics, rather than a limited focus on the old-growth phase. The continuum of decaying wood There is a significant difference between the amounts of dead and decaying wood in old-growth forests and in commercially productive forests. In commercially productive forests the natural surplus growth is harvested in intermediate cuttings, but in a natural suc- cession any trees that die off will contribute to the continuum of decaying wood, i.e. significant amounts of dead wood in different stages of decomposition. The size of a forest Forests should ideally be self-sustaining with regard to all their ecosystem functions. The minimum size needed for this to occur depends very much on bioclimatic conditions, the level of fragmentation, and the presence of mature and old-growth forests. Definitions of minimum sizes have varied between 2 hectares and 20 hectares in Fennoscandia, for instance. In forest inventories conducted to plan the protection of old-growth forests, however, the target size has been between 50 and 100 hectares. In northern Europe, inventories of key biotopes have also been carried out, and many smaller areas with old-growth characteristics have been detected. In Russia, areas classified as old-growth forests may be as large as 3,000–5,000 hectares. Structure and composition The main attribute used to define old-growth forests is the presence of certain old-growth characteristics. These characteristics vary considerably according to climatic, geological and other sitespecific variables such as levels of disturbance, and should be defined and assessed separately for each region. In general, old-growth forests have more large trees than commercially productive forests. There are also more smaller understorey trees, and more groups of trees formed where the death of one or more large trees has left an opening in the forest canopy. This greater spatial variation is known as patchiness. Biological factors common to most definitions – trees at or beyond biological maturity – living and dead trees – trees of various sizes – characteristic vertical structure – little or no evidence of human disturbance Stora Enso Environmental Report 9 39349_217ERe2sh_E_UUSI 28.3.2001 21:07 Sivu 10 Old-growth definitions Regional and organisational differences between definitions of old-growth forest reflect the term’s biological, social and economical connotations. According to the Swedish FSC The Taiga Rescue Network’s standard from 1997 old- definitions for old-growth growth forests are natural forests stress ecological func- forests with pronounced variaThe Working Group on the tions: Old-growth forests con- Protection of Old Forests tain threatened ecosystems on State Lands in Southern and species, or endemic species. They can also be large landscape-level forests capable Finland states that old forests valuable in nature conservation terms have of supporting natural ecologi- tions in the ages of the trees, multiple-layered vegetation, and a great abundance of old trees and large pieces of dead wood in different stages of decay. usually greatly exceeded the cal patterns. regeneration ages stipulated in forestry guidelines. The According to the US Forest trees are normally of varying Service, the generic definition sizes and species, and form for an old-growth forest is an multiple canopy layers, ecosystem distinguished by old although spruce forest at a trees and related structural late successional stage also attributes. Old-growth encom- qualifies. Old stumps or passes the later stages of stand other minor traces of human development that typically differ activity do not necessarily from earlier stages in a variety of reduce the conservation characteristics, which may value of a forest. Old age include tree size, accumulations and competition have of dead woody material, the increased the amount of number of canopy layers, species natural removal, and often composition, and ecosystem also the amount of damage function. Note that old-growth is naturally suffered by the not necessarily synonymous with trees. virgin or primeval, and could develop following human disturbance. USFS have developed definitions for each of the major forest types found in U.S. 10 Stora Enso Environmental Report Russian definitions of oldgrowth forests emphasise more the natural developmental history of a forest area at the landscape level. Old-growth forests are defined as large areas of woodland where the forest structure is the result of centuries of development, affected only by the kinds of natural disturbances that occur in the local climatic and geographical conditions. Note: In spite of this definition, the factors listed as common to all definitions (page 9) are also in practice the key attributes used to define old-growth forests in Russia. 39349_217ERe2sh_E_UUSI 28.3.2001 21:07 Sivu 11 Definitions for old-growth forest in the boreal zone The term old-growth has become synonymous with forests with a high conservation value. The main disputes related to old-growth forests are not fundamentally about the definition of the term “old-growth”, but rather on different ideas about the need to protect forests at a regional or national level. Although there are differences between the various definitions of old-growth forests, there is common ground on their main features. But the detailed characteristics to be used to define old-growth forests should be specifically identified for each vegetation type in different geographic and climatic zones. In densely populated areas, for instance, signs of human disturbance must not disqualify forests from classification as oldgrowth forest, while in other areas this might be a more crucial factor. Assessing the value of old-growth forest in practice So the term “old-growth forest” describes not only the age of the trees, but also the overall state and composition of a forest. Structurally complex forests provide a greater variety of microclimates, and places for creatures to shelter or nest, consequently enhancing species diversity. Although there might not be a simple answer to the problem of varying definitions of oldgrowth forest, the conservation of biodiversity has clearly become one of the most important challenges for the forest industry sector around the world. Wood procurement strategies must be built on the basic principle of only using sustainable resources, and should take into account the views of governmental organisations, scientists, NGOs and business partners, wherever the company is operating. Stora Enso’s Environmental and Social Responsibility Policy states that all operations and actions are to work “towards ecological, social and economical sustainability”. This concept includes the responsible use of natural resources and covers the sustainability of the various commodities originating from forests, rather than only focusing on the conditions in the forests. This makes adapting forest management methods to the dynamic characteristics of any forest ecosystem just as important as protecting old-growth stands. The sustainable use of forest ecosystems is also a vital aspect of socio-economic development in many parts of the world where Stora Enso operates today. One conclusion that can be drawn from this is that the forest operations, and ideally also all wood procurement activities, need to be based on regional or landscape-scale plans which balance the sustainable use of forests with traditional protection measures. Old-growth forests will always play an important role in working to create a sustainable forest landscape, regardless of the management methods used. Stora Enso therefore needs to continue to apply ecological landscape planning procedures in the company’s forest holdings around the world, and also to support region- al or local initiatives that can produce suitable scientific models for forestry operations and wood procurement. Within Stora Enso, national wood procurement principles always comply with local environmental legislation and official conservation programmes. Where these do not fully concur with Stora Enso’s definition of sustainable forestry, the company is committed under its own environmental and social policy to strive for improvements. Operations like landscape planning, natural value assessments, and audits to verify the origin of wood, are covered by quality and environmental management systems such as ISO 14001, Sustainable Forest InitiativeSM (SFI) and Eco Management and Audit Scheme (EMAS). Forest certification systems also help to quantify performance levels and provide evidence of the standard of the company’s operations. Setting an example Old-growth forest issues are particularly important in Russia. Stora Enso frequently discusses these questions with the relevant authorities and non-governmental environmental organisations. The company is also involved in the Pskov Model Forest project, which aims to develop an environmentally appropriate, socially beneficial and economically viable forest management model, and to encourage the application of positive experiences gained in the Pskov Region in other parts of northern Russia. The documentation Stora Enso requires about the origin of wood is controlled through on-site environmental audits. All the major local and regional stakeholders are participating in this project, along with the Swedish International Development Agency (SIDA), WWF Germany and Stora Enso. For more detailed information on wood procurement issues, see page 14 or visit www.storaenso.com The general part of this article is based on analysis carried out by Indufor Oy. Stora Enso Environmental Report 11 39349_217ERe2sh_E_UUSI 28.3.2001 21:07 Sivu 12 Environmental Environmental performance 2000 Environmental management At each level of the organisation, the operational management is responsibile for environmental performance. An Environmental Committee chaired by the Deputy CEO serves as the overall coordinating body on Groupwide environmental issues. The CEO and DCEO make decisions on strategic and policy issues. A Group support unit, Stora Enso Environment, headed by the Senior Vice President, Environment, works together with regional operational support teams for Finland, Sweden, Continental Europe and North America, backed up by a team of specialists. Environmental management has long been identified as the key to improving environmental performance, and Stora Enso has developed its own systems to guarantee continuous improvement and uniform practices throughout the Group. As soon as third-partyaudited systems became available Stora Enso was one of the first companies to adopt them, and realise the benefits of transparency in environmental quality work. An internal review has been conducted to assess the business value of the environmental management systems (EMS) so far implemented. The review has indicated that the most important benefits are: • Improved environmental performance (e.g. better separation of waste, less landfill, better forest management, lower energy and water consumption). • Increased trust from stakeholders (e.g. customers and authorities). • Enhanced awareness and knowledge of environmental issues amongst employees, as indicated by the greater numbers of proposals for environmental improvements coming from employees, for instance. • Cost savings related to lower consumption and emissions figures, as well as better prices for insurance, facilitated by consistent improvements across the company. Stora Enso is currently bringing various management approaches related to environmental, safety, and quality issues into line with the corporate business improve- 12 Stora Enso Environmental Report ment model, based on the “Total Quality Management” philosophy. By the end of 2000, 80% (up from 76% in 1999) of the company’s pulp, paper and board production capacity was covered by ISO 14001 and/or EMAS. During 2000 ten more units were certified according to ISO 14001 and/or registered according to EMAS. In the U.S., Stora Enso North America aims to have all pulp and paper production, including the related forest resources operations, ready for certification by the end of 2001, and certified by the end of 2002. Emphasising the importance of continuous improvement in all sectors, Stora Enso’s Group Management recommends that systematic environmental management procedures should also be introduced in service units. Group Management has also clarified the Group’s principles for the implementation of formalised systems and procedures in production units. The new basic principles for the implementation of EMS are: • Major production units, i.e. pulp, paper and board mills, must all have EMS. Certification and/or registration is recommended, but optional. • For minor production units, like sawmills and core factories, basic environmental management procedures such as environmental impact assessment, assignment of environmental responsibility, and environmental training of personnel, are compulsory. The implementation of formal EMS is strongly recommended. • In wood procurement the adoption of basic environmental management procedures is compulsory, and the implementation of formal EMS is strongly recommended. This complements the company’s strong commitment to forest certification (see page 15). • Service units like Transport and Distribution, Purchasing, R&D, and Administration, will either be required or strongly recommended to introduce basic environmental management procedures, depending on their environmental significance. 39349_217ERe2sh_E_UUSI 28.3.2001 21:07 Sivu 13 performance 2000 Environmental investments and annual costs In 2000, Stora Enso spent EUR 2291) million on environmental investments and costs, compared to EUR 171 million in 1999. This spending includes capital expenditure as well as operating and maintenance costs, but excludes interest and depreciation. Total environmental investments amounted to EUR 103 million, while environmental costs totalled EUR 127 million. Major investments which were completed or in their final stages during 2000 include the biological waste water treatment plant at Skutskär Mill, the evaporation plant at Gruvön Mill and the gasification plant at Varkaus Mill. At Anjalankoski a combined heat and power plant was taken into use along with a thermal dryer, designed to increase the energy value of fibre sludge. Some projects are still ongoing, such as the extension of Hylte Mill’s waste water treatment plant and the new fibre line at Imatra Mill. Extension work at Varkaus Mill’s waste water treatment plant was decided in 2000 and started in the beginning of 2001. This project is expected to cost EUR 10 million. In Finland a new Environmental Protection Act has been in force since March 2000. In accordance with the EU principle of IPPC (Integrated Pollution Prevention and Control), the following pulp, paper and/or board mills have to renew all their environmental permits by the end of 2004 at the latest: Anjalankoski, Corenso Pori, Enocell, Heinola Fluting, Imatra, Kemijärvi, Kotka, Oulu, Pankakoski, Summa, Varkaus, and Veitsiluoto. Also the following Stora Enso units are due to update their environmental permits between 2001 and 2005: Ala Sawmill, Berghuizer, Biron, Celbi, Corbehem, Corenso St. Seurin-sur-l’Isle, Duluth, Falun Red Paint, Gruvön Sawmill, Honkalahti Sawmill, Hylte, Kabel, Kaunas, Kimberly, Kitee Sawmill, Koski Timber, Kvarnsveden, Niagara, Norrsundet (including Kopparfors Sawmill), Nymölla, Plana Sawmill, Sachsen, Skoghall, Skutskär, Stevens Point, Whiting, Wisconsin Rapids Paperboard, Paper and Pulp Mills, Water Quality Center, and Water Renewal Center. Estimates indicate that a total of EUR 70 million will be required to cover future corporate environmental liabilities, compared to EUR 48 million reported in 1999. The increase is mainly due to the closure of Newton Kyme Mill and the acquisition of Consolidated Papers, Inc. The implementation plan includes major remediation projects such as the decommissioning activities at the Falu Mine, the clean-up of mercury contamination at the former chloralkali plant at Skoghall, and the final safe disposal of mercury at Skutskär harbour. There are currently no active or pending legal claims concerning environmental issues which could have a major impact on Stora Enso’s financial position. 1) Environmental investments and costs include former Consolidated Papers, Inc. figures referring to four months. Stora Enso Environmental Report 13 39349_217ERe2sh_E_UUSI 28.3.2001 21:07 Sivu 14 Wood procurement Wood procurement Stora Enso’s objective in wood procurement is to supply the company’s mills with raw material at competitive costs according to high social and environmental standards, giving special consideration to ecological values. The major sources of wood in Europe and North America are small private forest holdings, larger holdings such as state-owned forests, and land leased or owned by the company. In the Southern Hemisphere, fast-growing plantations have been established in areas of low value and biodiversity. 14 Stora Enso Environmental Report 39349_217ERe2sh_E_UUSI 28.3.2001 21:07 Sivu 15 Fibre strategy – a holistic approach The Group’s fibre strategy uses a holistic approach, covering economic, social and environmental considerations, and concerning also other sources of fibre than wood. Stora Enso operates in all the world’s major forest zones. This is a unique asset, but at the same time complicates matters, since the strategy must be feasible in a whole range of ecological and socio-economic conditions. The aim is that fibre sources must everywhere be clearly acceptable and sustainable both environmentally and socially. Stora Enso’s fibre strategy is designed to ensure continuous improvements are made towards these goals. The sustainability principles for wood and fibre procurement are defined in the strategy at a general level, stressing environmental, social and economic acceptability, and compliance with the Group’s other values and policies. These principles also concern external suppliers, and more specific guidelines are already being formulated. A universal goal for Stora Enso’s operations is the full documentation of the origin of fibre. The Group is striving to complete a system to enable our customers to trace the origin of wood and its route from the forest to the mill. However, due to the company’s rapid expansion, the management and documentation of certain fibre sources are still to be updated. Suppliers are contractually bound to the principles of sustainable wood procurement. Environmental management systems play a central role here, while forest certification also helps to document the origin of fibre. National wood procurement principles always comply with national legislation, and set higher standards whenever possible. Forest certification and environmental management systems Stora Enso is developing forest certification according to three main principles. The first principle is that forest certification schemes must be specifically developed according to the varying prerequisites of each country or region. Secondly, Stora Enso as an international company supports the mutual recognition of credibly built certification schemes. But even while there is progress with such certification schemes, other existing measures such as the ISO 14001 Environmental Management System must also be developed further. This third principle is especially important where there are no immediate prospects for forest certification. Finland Stora Enso Metsä has updated its EMAS report in 2000 and rewritten its environmental principles for wood procurement to comply with the Group’s Environmental and Social Responsibility Policy. Stora Enso Metsä participates in the Finnish Forest Certification System (FFCS), which had certified about 95% of Finnish forests by the end of 2000. FFCS is endorsed by the Pan-European Forest Certification Scheme (PEFC). A chain-of-custody certification scheme based on material flows accounting is currently being set up, and will be included in the existing ISO 14001 environmental management system. This will mean that production units can be informed about the percentages of PEFC-certified wood in their raw material. The other main method for verifying certified raw material is physical segregation. This method may be useful when markets require products made of raw material exclusively from PEFC-certified forests. Ecological landscape planning has been progressing in Stora Enso’s own forest holdings. In 2000, three new plans were prepared, covering 10,000 hectares. There are now eight such plans in all, covering a total area of 30,000 hectares, with more to come. Inventories of ecologically valuable biotopes in the company’s forest holdings started in 1995. During summer 2000, 70% of the forests originally inventoried in 1995 and 1996 were re-surveyed due to changes in forest and environmental legislation, and the other areas will be inventoried in summer 2001. Sweden All the major forest-owning companies, including Stora Enso, have their forests in Sweden certified by the Forest Stewardship Council (FSC), under which 45% of Sweden’s forest area was certified by the end of 2000. A further 5%, mainly small-scale forests, is certified according to PEFC. Ecological landscape plans have been preliminarily approved or drafted for some 40% of Stora Enso’s Swedish forest holdings. Almost the whole area has been covered by key biotope inventories to provide a basis for planning. Ecological landscape planning will be completed by 2003 at the latest. All Stora Enso Sweden’s forests are FSC-certified. Regarding chain-ofcustody certificates, all transportation of wood from Stora Enso’s forests to weighing stations is also certified according to FSC. This includes parts of the Tree-TrainSystem that have their own special certificates. Furthermore, all the Swedish sawmills and Norrsundet Pulp Mill have FSC chain-of-custody certificates. Stora Enso Environmental Report 15 39349_217ERe2sh_E_UUSI 16 Stora 28.3.2001 21:07 Sivu 16 Stora Enso Skog can now help other forest owners to certify their forest holdings under a group certificate, in accordance with the FSC standard. Stora Enso Skog’s own certification model has been approved. The Wood Supply Unit at Stora Enso Skog went through ISO 14001 and EMAS certification audits in December 2000. The certificate will most likely be granted to Stora Enso Skog in early 2001, when the new EMAS report will also be finalised. Stora Enso Skog’s Ludvika management region was also certified according to ISO 14001 in December 1999, having been the first forest area in the whole country to receive FSC certification back in 1996. A sample of final fellings was internally audited during 2000 according to Stora Enso Skog’s own guidelines, which meet the Swedish FSC standard. The results show a steady improvement in environmental performance since 1994. dialogue. During 2000 several meetings were held with the Russian authorities and NGOs. The old-growth moratoriums in the Republic of Karelia and the Murmansk Region continued during 2000. In Vologda, Stora Enso met the forest authorities, NGOs and other companies to resolve the old-growth moratorium. A new conservation area was designated in Atleka. The Pskov Model Forest project (2000–2003) started, and the first phase of Taiga model forest project was completed. The aim of the Pskov project is to develop a model for sustainable forestry in European Northern Russia (see page 11). The Taiga Project (1997–2000), based in the village of Matrosy in the Republic of Karelia, had similar aims to the Pskov project, but more emphasis on research co-operation between the Universities of Joensuu in Finland and Petrozavodsk in Russia. Russia and the Baltic Countries Stora Enso Skog is responsible for international wood procurement from the Baltic Countries, while Stora Enso Metsä covers imports from Russia. During the first phase the wood imported from Russia and the Baltic Countries is still non-certified. The question of which forest certification systems will be implemented in these countries remains open. Stora Enso Forest Baltic formulated its environmental programme in 2000. This includes the implementation of a chain-of-custody system for the Baltic Countries. The organisation is also taking steps towards introducing a suitable environmental management system, and has started a comprehensive training programme for personnel, suppliers, and contractors. Stora Enso is participating in the development of national forest management standards in the Baltic Countries, and supports the inventory of key biotopes in Estonia. In Russia, Stora Enso is participating in model forest projects and moratoriums as well as stakeholder U.S. Stora Enso North America’s Forest Resources earned certification on approximately 134,000 hectares in Wisconsin, Michigan and Minnesota for its forestmanagement practices and wood procurement policies in November 2000, following an external audit. The certification is part of the Sustainable Forestry InitiativeSM (SFI) of the American Forest & Paper Association. The Sustainable Forestry Initiative is a comprehensive system of principles, objectives and performance measures that integrates the continued growing and harvesting of trees with the protection of wildlife, plants, soil and water quality. Stora Enso North America’s procurement practices directly promote sustainable forestry among other landowners through the Tree Farm Family Program, which represents more than 1,200 members with 85,000 hectares of private forest land. The company has also pledged to obtain the ISO 14001 certificate and to adhere to AF&PA’s Environmental Health & Safety Principles Verification Program. Enso Environmental Report 39349_217ERe2sh_E_UUSI 28.3.2001 21:07 Sivu 17 Canada Stora Enso Port Hawkesbury Limited’s Woodlands Division in Nova Scotia manages 607,000 hectares of forest under licence from the provincial government. The Woodlands Environmental Management System, covering forest planning, road construction, harvesting and silviculture on company-managed lands and all wood transportation, is ISO 14001-certified. Progress in Sustainable Forest Management is continuing, and Stora Enso has participated in over 40 public input sessions throughout the area during the past two years. In November 2000, Stora Enso Port Hawkesbury established a Public Advisory Committee to improve forest management planning. The committee was selected by an independent consultant to provide a cross-section of local stakeholder viewpoints. The Woodlands Division strives to meet the forestry certification criteria of the Canadian Standards Association program for Sustainable Forest Management (SFM). The Joint Management Plan, in cooperation with local landowners’ and fibre-producers’ associations and the provincial government, provides full silviculture funding for private forest owners. The company administers and provides 50% of the funding for this program, and has also established a Forest Stewardship Program to provide environmental training and audits for private wood-suppliers. Portugal The management practices applied in Stora Enso Celbi’s plantations were certified according to the ISO 14001 standard in 2000. Organisation and key figures Stora Enso Forest is the wood procurement organisation for Finnish and Swedish mills, and consists of Stora Enso Metsä in Finland, and Stora Enso Skog in Sweden. These organisations also manage the company’s forest holdings in Finland and Sweden. Stora Enso Metsä is also responsible for international wood procurement from Russia, and Stora Enso Skog deals with imports from the Baltic Countries. A new Central European organisation for wood procurement will start to operate during 2001. Stora Enso North America is responsible for wood procurement for operations in Canada and the U.S. Wood is the most important raw material for Stora Enso. The Group used a total of 42 million m3 of wood in 2000, three fourths of which was procured in Western Europe. Most wood is either purchased domestically from small privately-owned forest holdings and larger state-owned forests, or imported. Stora Enso owns 3.0 million hectares of forest, including 1.9 million hectares in Sweden (1.6 million hectares of which is productive forest land). The company also has plantations in South America and South-East Asia, and has doubled its share in the Kalimantan plantations in Indonesia from 30% to 60%. The company’s forest operations in Portugal, Stora Enso Celbi, cover 45,000 hectares of Eucalyptus globulus. Stora Enso also leases 0.6 million hectares of forest, mostly in Nova Scotia, Canada. For more detailed information on wood procurement, visit www.storaenso.com/environment Stora Enso Environmental Report 17 39349_217ERe2sh_E_UUSI 28.3.2001 21:07 Sivu 18 Surplus heat from Nymölla Mill warms up the local public swimming baths. EnergyEnergy Stora Enso continued with the systematic auditing of energy efficiency, carrying out audits in 17 units during 2000. Approximately 90% of the Group’s European mills have now been audited. Stora Enso North America is currently appointing energy coordinators for individual mills, and will initiate the energy auditing process throughout North America in 2001. The main benefits of efficiency audits are the identification of best practices and potential improvements in the production and consumption of heat and electricity. Mills have also been able to learn from each other’s energy management systems and other routine operations. Scheduled energy efficiency meetings and special energy teams have been particularly useful in this respect. Training has also proven to be important in improving awareness of energy issues. 18 Stora Enso Environmental Report Increased use of bio-fuels During 2000 several important projects were completed, while others were started. In many cases a common feature is the increased use of bio-fuels. At Pankakoski Mill, for instance, the new bio-fuel boiler’s capacity replaces about 14,000 tonnes of heavy fuel oil per year. At Wisconsin Rapids Pulp Mill, modifications in boilers’ wood waste and air handling systems are reducing the consumption of natural gas and increasing the use of bark and wood waste. At the Duluth Paper Mill, cooperation with the local electricity utility on renewed delivery systems to the boilers allows for a greater use of bark, wood wastes and chipped railroad ties. At Anjalankoski, a combined heat and power plant was taken into use, along with a thermal dryer designed to increase the energy value of fibre sludge. 39349_217ERe2sh_E_UUSI 28.3.2001 21:07 Sivu 19 In general, converting grate boilers into fluidisedbed boilers improves boiler efficiency, and allows the use of a wider range of fuels, especially bio-fuels. Gruvön Mill is now running a new recovery boiler, while a new evaporation plant will start operating during January 2001. These two projects together will allow the burning of more bio-fuels in the bark boiler, and save on oil consumption. The mill will also supply the Grums municipality with district heating from its secondary heat surplus. The Gruvön Sawmill will meanwhile be supplied with heat from the Gruvön Pulp and Paper Mill. Stora Enso and Vapo Oy agreed on the collection of logging residue in Finland. At the forest owners’ request, tree branches and tops in regeneration areas can now also be harvested in suitable areas. This agreement will improve the utilisation of forest chips in Finland. Optimisation enhances energy efficiency Other investments in increased energy efficiency include the utilisation of new technology in the press sections of paper and board machines. The installation of a shoe-press at Kabel Mill in 1999, for example, led to a 10–15% reduction in steam consumption levels in paper machine 5 during 2000. After shoe-pressing, paper contains less water, and requires less steam for the drying process. Energy consumption can also be reduced by adjusting the dryer section to optimise the moisture of the paper. At Anjalankoski Mill staff training has also helped in this respect. Berghuizer Mill provides a good example of how the consumption of elecricity can be optimised by introducing an analysing system. In April 2001 an energy monitoring system will be launched to help operators reach their efficiency targets. The system will provide on-line data from the 70 power-consuming units in the papermaking process. An energy reduction target of 8% within four years has been set within the framework of ISO 14001, to comply with government regulations, and reduce operating costs. At Varkaus Pulp Mill, a new handling and burning system was built for dissolving tank gases at the recovery boiler. At the Nymölla Mill, a new mechanical vapour steam compression plant has been taken into operation, upgrading waste steam to primary steam. This facilitates meeting increasing demands for steam by releasing extra bark boiler capacity, and saves about 8,000 m3 of heavy fuel oil annually. Efficient operations, renewable sources The Kyoto Protocol and its targets make using more renewable energy sources and further improving energy efficiency even more vital. Stora Enso sees opportunities for further increases in its use of bio-fuels and combined heat and power generating schemes (CHP), as well as more scope for improvements in energy efficiency. Bio-fuels already account for some 64% of the Stora Enso Group’s total annual fuel consumption in energy production. Natural gas amounts to about 18%, and the rest is divided between peat, oil and coal. CHP production covers 32% of the Group’s total electricity consumption of 24 TWh. During 2000 there were major changes in the company’s structure in terms of energy – including the divestment of major energy assets and the acquisition of Consolidated Papers, Inc. in August 2000. Even though Stora Enso’s own production and external sales Potential for improving energy efficiency Production Consumption Heat Adoption of best available bio-fuel technologies Use of new technology in the press sections of paper and board machines Electricity More use of combined heat and power production (CHP) Optimisation of consumption through control systems Stora Enso Environmental Report 19 39349_217ERe2sh_E_UUSI 28.3.2001 21:07 Sivu 20 of electricity have decreased, the overall picture from the environmental point of view remains quite similar to the situation 1999. Stora Enso’s energy procurement and consumption is still typified by a high share of bio-fuels in energy production (64%) and a trend towards combined heat and power production. A major part of Stora Enso’s power-generating capacity was sold to Fortum on 1.6.2000, while the company’s Finnish peat extraction business was sold off to Vapo on 1.10.2000. Total consumption of fuel in Stora Enso’s production, TJ/year 20001) Oil 6% Coal 9% Peat 3% Gas 18% Bio-fuels 64% Total 234,800 TJ Total consumption of fuel in Stora Enso’s production, TJ/year 19991) Oil 7% Coal 8% Peat 3% Gas 19% Total 234,800 TJ Bio-fuels 62% 1) Purchased heat not included Electricity procurement and consumption in the Group, TWh/year Finland Sweden Europe (excl. Finland North America Asia Total and Sweden) Group resources2) CHP (Combined heat and power) Hydropower Nuclear power Other sources Subtotal 3.7 0.8 1.3 0.9 6.6 1.1 1.7 0.9 0.0 3.6 1.9 0.0 0.0 0.0 1.9 1.1 1.0 0.3 0.0 2.4 0.0 0.0 0.0 0.0 0.0 7.7 3.5 2.4 0.9 14.5 External purchasing 1.9 3.2 3.4 2.5 0.1 11.1 Total procurement 8.5 6.8 5.2 4.9 0.1 25.6 Stora Enso mill consumption 7.9 6.8 4.6 4.8 0.1 24.2 External sales 0.6 0.0 0.7 0.1 0.0 1.4 2) 20 Stora Enso Group resources = resources owned directly or indirectly by Stora Enso Environmental Report 39349_217ERe2sh_E_UUSI 28.3.2001 21:08 Sivu 21 Waste and residuals Waste and residuals management management Stora Enso strives to reduce waste by finding beneficial uses for residual materials. As a result of this work, the company’s overall need for landfill waste disposal has been further reduced, by 3% during 2000. The following examples highlight the steps taken to improve ecoefficiency. At Anjalankoski Mill, a new sludge drier was taken into use in December. A thermal treatment plant will increase the energy value of the fibre sludge, making it a more efficient bio-fuel, and reducing the need for landfill. Imatra Mill is now using all the ash from boilers, as well as considerable quantities of green liquor and fibre sludge, as bottom layers in their own landfill site. Next year the unit will continue to rebuild the site, using similar residual products in the top layer. At Stora Enso’s mills in Sweden, waste has been reduced by 7%, thanks to focused efforts to find useful applications for residuals. This has helped to reduce the impact of the new waste tax of EUR 28/wet tonne for landfill waste disposal, introduced in January 2000. Green liquor sludge, de-inking sludge, and ash from the incineration of de-inking sludge are not covered by the tax. Skoghall Mill has reduced landfill by incinerating part of the sludge produced during chemical precipitation in the bark boiler, and by increasing recycling in the coating kitchen. Meanwhile, Fors Mill has reduced landfill by finding an external application for its residual products as a covering layer for a nearby mine reclamation site. An innovative method to incinerate de-inking sludge and re-use the filler has been developed at Hylte Mill. This process has been operated on a pilot scale, and filler has been produced for full-scale testing at one of the mill’s paper machines. This method holds the potential for another significant reduction in landfill. Stora Enso North America has continued to monitor the effects of the ConsoGro Programme, which involves turning sludge into a nitrogenous fertiliser. Ongoing research is continually providing new information on the agricultural impacts of this application. The many economic, agronomic and environmental advantages of the programme include a reduction in the need for costly landfills, savings in fertiliser costs, improved yields, an increased supply of other valuable nutrients, increased water holding capacity in sandy soils, improved drainage in heavy soils, reduced percolation of nutrients, pesticides and herbicides into groundwater, and less wind erosion. The sludge is a residual from Stora Enso’s Waste Water Treatment Plant at Wisconsin Rapids. About 1,000 hectares of agricultural land are spread with ConsoGro every year. However, ConsoGro is just one example of the work which has made Stora Enso an industry leader in the U.S. in finding beneficial uses for waste materials. During 1999 and the first three quarters of 2000, Stora Enso’s U.S. manufacturing facilities beneficially re-used about 83% of the high volume waste they generated. High volume wastes include bio-solids from waste water treatment, wood waste, boiler ash, and lime solids. Some 9,300 tonnes of waste, representing a tiny fraction of the total amount of waste produced by Stora Enso, is classified as hazardous waste, and is processed, transported and safely disposed of by licensed specialist companies. Stora Enso Environmental Report 21 39349_217ERe2sh_E_UUSI 28.3.2001 21:08 Sivu 22 Recycled fibre Recycled fibre Stora Enso is committed to further increasing the use of recovered paper, from the level of 2.2 million tonnes utilised in Stora Enso mills during 2000. The paper industry already has intensive and wellestablished recycling operations. Environmentally efficient recycling cuts costs and the use of raw-materials, and is both market-driven and industry-led. Recoverable materials are sorted at source, and recycling operations can be organised on a local or regional scale, even across national borders. Stora Enso strives to use recovered paper as near as possible to where it is collected. The Confederation of European Paper Industries (CEPI) published a declaration on recycled fibre in 2000. The declaration contained an industry-wide commitment to reach a higher recycling target at the European level, with 56% of paper and board to be recycled by 2005. CEPI points out that a total collection 22 Stora Enso Environmental Report rate of 100% is practically impossible. Some papers, such as tissues, cigarette papers and wallpaper, can never be recovered. Estimates suggest that these kinds of unrecoverable paper and board grades can amount to 15% to 20% of total consumption. Levels of utilisation vary by grade European statistics show that newsprint makes up just about 12% of Western Europe’s paper production, but on average it contains over 60% recovered fibres, well above the 45% average utilisation rate for all types of paper. Old newspapers and magazines indeed make up 95% of the recovered paper mix used to make newsprint. In fine papers, on the other hand, the rather low utilisation rate of recovered fibre is due to technical problems with functionality and the quality of the final product, especially where coated grades are concerned. 39349_217ERe2sh_E_UUSI e 28.3.2001 21:08 Sivu 23 Stora Enso’s utilisation rate for recycled newspaper is 40%. The Nordic Countries play an important role, adding fresh fibre for recycling operations in continental Europe. Due to technical limitations, paper cannot be recycled indefinitely, and not all paper grades can be made of recovered fibres, so virgin fibres will always remain an essential element in paper and board production. In Sweden and Finland, paper is already very efficiently collected and recycled (respective rates of 61% and 65%), but there is still potential for increasing levels of recovery elsewhere in Europe. Stora Enso also supports the American Forest & Paper Association’s 50% Paper Recovery Goal. About ten years ago, the United States paper industry made a commitment to expand paper recycling to 40% of all the paper used in the United States. This goal was achieved a year ahead of schedule, and the new goal to recover 50% of all paper was set. An assessment made in May 2000 indicates that the industry is halfway to this goal – at 45% recovery. Stora Enso North America collected more than 3,000 tonnes of waste paper from the community at the Wisconsin Rapids Paperboard Mill’s waste paper collection centre during 2000. This paper was used as raw material by the Wisconsin Rapids Paper Mill, where annual waste paper purchasing costs were reduced by EUR 0.3 million. Consolidated Papers, Inc. has collected and recycled waste paper for the manufacture of paperboard since 1917. In addition to using recovered paper to make paperboard, the company produces pulp from recycled office paper. Fresh fibre Recovered fibre Paper cannot be recycled indefinitely, so fresh fibres will always be essential in paper production. Major projects in 2000 Corenso has developed a new type of gasification plant in Varkaus, Finland, which allows recovered liquid packaging board from drinks cartons containing polyethylene and aluminium as well as fibres to be separated into its useful material components. The process converts the polymer component into a gas used to produce energy, while the fibre is used in the production of core. The recovery of the remaining aluminium component will greatly reduce the amount of waste going to landfill sites. Keräyskuitu Oy in Karhula has renewed the flotation process for de-inking. This will increase the capacity of the flotation cells by 30%, and the pulp produced will be whiter. This new technology is based on a simple physical phenomenon: a difference in fluid density. This means that pumping is not needed any more, so specific energy consumption is expected to decrease. Recycled fibre use 2000 Old corrugated containers 10% Printing & writing, wood-free 8% Newsprint & pamphlets 72% Liquid packaging board + wrappings 6% Cartonboard + other 4% Total 2.2 million tonnes. Stora Enso Environmental Report 23 39349_217ERe2sh_E_UUSI 28.3.2001 21:08 Sivu 24 Transport Transport Stora Enso is one of Europe’s largest transport purchasers. The total flow of raw materials and products in and out of the Group’s mills amounts to 68 million tonnes a year. This underlines the fundamental importance of finding transport solutions with improved environmental performance. With this aim in mind, Stora Enso has defined the following principles for transport: • We are actively promoting transport solutions with improved environmental performance. • Action plans are systematically updated and followed up. Selected transport chains are measured and analyzed. • Whenever there are structural transport changes, environmental assessment is carried out. • We require that our transport service suppliers inform us about, and continuously improve, their environmental performance. 24 Stora Enso Environmental Report These principles are now to be integrated into everyday operations throughout the Group. The following examples highlight the work that is already being done. New transport solutions The Base Port transport system started up in 2000. The system is designed to transport products efficiently from mills in Sweden to markets in continental Europe and elsewhere overseas, via Zeebrugge, Belgium. To make the whole system as efficient as possible, Swedish rail traffic and international shipping have been integrated thanks to a new loading technique, the Stora Enso Cargo Unit. Environmental performance was a key factor in the system design, and positive results have already been obtained during the start-up period: 39349_217ERe2sh_E_UUSI 28.3.2001 21:08 Sivu 25 • The three ships use catalytic emission reduction equipment. The consequent reductions in NOx emissions have proved to be as dramatic as expected – 90%. • The vessels run on low-sulphur fuel (<1% S), which leads to a 75% reduction in emissions, compared to standard maritime fuel. • The vessels use electricity from the mains supply in the Port of Gothenburg. This reduces CO2 emissions by 800 tonnes a year. The reductions in noise and particle emissions are also significant. In the year to come, with growing experience, and increasing volumes passing through the system, still further improvements are confidently expected. Skutskär Imp Baltic orts from Coun tries Gruvön Köping Imports from Baltic Countries Routes used in 2000 Routes used in 1999 distances from several of the company's important mills in eastern Finland. The new Mussalo terminal has been tailor-made for Stora Enso, and represents the best available technology in terms of environmental performance. Freight routing will be gradually shifted from Helsinki to Kotka during 2001, reducing CO2 emissions. Evaluation By carefully evaluating transport links and chains, Stora Enso can learn more about transportation systems and their environmental impacts. The environmental effects of any changes in transport infrastructure can also be repeatedly assessed. For example Stora Enso’s Sachsen Mill has implemented a system designed to estimate the amounts of Wood 42 million tonnes Paper and board 14.8 million tonnes Pigments and fillers 3.0 million tonnes Sawn product 3.2 million tonnes Recovered paper 2.2 million tonnes Market pulp 1.3 million tonnes Purchased pulp 1.5 million tonnes Rearranging wood flows to Skutskär and Gruvön Mills has led to a 99% decrease in CO2 emissions. The total flow of transported materials and products amounts to 68 million tonnes a year. Stora Enso Skog has reorganised the transportation of wood to Gruvön Mill (see the map above). Rearranging wood flows to Skutskär and Gruvön Mills has led to a 99% decrease in CO2 emissions. Previously wood was transported from the company’s forests in the Dalarna region to Skutskär Mill on the east coast, while wood imported from the Baltic Countries was transported by ship to the east coast and then on by rail and truck to the inland mill at Gruvön. A number of changes and investments in terminals and ports have now made it possible to start up a radically different wood flow system. Wood from Dalarna is now transported directly by rail to Gruvön Mill, and the imported wood from the Baltic Countries is shipped directly into Skutskär Mill’s own harbour. The new system involves much less transportation overall. In southern Finland Stora Enso will direct all container transport through Mussalo harbour in Kotka. This will particularly cut the land transportation emissions from transportation. This tool provides vital information about the absolute and specific amounts of emissions, and has been in use since 1998. Stora Enso has developed a management system for transport purchasers called Transport Chain Assessment (TCA). This system covers supplier relations (Compass), a tool for calculation (Profile), and continuous improvement and development (Project Portfolio). Stora Enso Transport and Distribution and Stora Enso Skog also use the Compass scheme to communicate Stora Enso’s position and the relevant demands to transport suppliers. About 400 transport suppliers have been registered and evaluated in the scheme. Some 90% already fulfil Stora Enso’s requirements, while the remaining 10% are still under assessment and have been encouraged to take the necessary steps. Stora Enso Environmental Report 25 39349_217ERe2sh_E_UUSI 28.3.2001 21:08 Sivu 26 Resource utilisation and environmental performance*) 2000 1.3 million tonnes market pulp Wood, under bark 42 million m3 9.8 million tonnes pulp for internal use Purchased pulp 1.5 million tonnes Recovered paper 2.2 million tonnes 14.4 million tonnes paper and board Pigments and fillers 3.0 million tonnes 0.4 million tonnes converted products Starch 1.3 milllion tonnes 4.8 million m3 sawn timber Purchased electrical power 17.3 TWh External delivery of steam and secondary heat 6,800 TJ Electrical power 1.1 TWh Purchased fossil fuels and peat 83,900 TJ Internal heat consumption 181,000 TJ Internal power production 8.0 TWh Externally purchased bio-fuel 8,700 TJ Residuals* Purchased steam 14,100 TJ 0.7 million tonnes 0.3 million tonnes Water 960 million m3 Emissions** * Deliveries of fibre sludge etc. to other Stora Enso mills. Deliveries of ash, pigments, fillers etc. to other companies. ** Discharge to water COD AOX Phosphorus Nitrogen 190,000 740 330 2,000 tonnes tonnes tonnes tonnes ** Emissions to air CO2 from non-renewable fuels CO2 from renewable fuels CO2 total SO2 NOX (NO2) Waste for landfill Hazardous waste 6,052,000 18,901,000 24,953,000 25,000 20,000 464,000 tonnes 9,300 tonnes The following factors have been used in 2000 when calculating CO2 emissions: Black liquor Bark 50% ds Wood waste Sludge Soap Tall oil Other bio-fuels 126 kg/GJ 125 kg/GJ 125 kg/GJ 110 kg/GJ 100 kg/GJ 70 kg/GJ 100 kg/GJ (estimated) Peat Natural gas Heavy oil Light oil Coal *) All figures include former Consolidated Papers, Inc. relating to the whole calendar year 2000. 26 Stora Enso Environmental Report tonnes tonnes tonnes tonnes tonnes 106 55 77 74 94 kg/GJ kg/GJ kg/GJ kg/GJ kg/GJ 39349_217ERe2sh_E_UUSI 28.3.2001 21:08 Sivu 27 Comments on environmental performance Emissions and waste per tonne produced*) COD The year 2000 marked another year of environmental progress. In spite of an increased production of pulp, paper and board, emissions were generally lower than in the preceding year. Corrected for the increased production, SO2 and NOx emission levels were down by 8% and the discharges to water of COD, AOX and Nitrogen were reduced by 6–7%. Only Phosphorus discharges were higher in absolute terms, but when corrected for the increased production even Phosphorus discharges were reduced slightly. Landfilling of waste was reduced by 3% in absolute terms and 7% in specific terms. This is due to focused efforts to find useful applications for residual products. The reason for the overall improvement in environmental performance is a great number of smaller improvements driven by the structured environmental management approach throughout the company. Some individual performances are however of particular significance to the overall improvements. Prime examples are the COD reduction at Port Hawkesbury Mill, the waste reductions at Imatra Mill, Oulu Mill, Fors Mill, and Wisconsin Rapids Pulp Mill, and the SO2 emission reductions at Corbehem Mill and Niagara Mill. 1.4 Production1) COD 1.3 1.2 1.1 1.0 0.9 0.8 1996 1997 1998 1999 2000 AOX 1,2 Pulp prod.2) AOX 1.1 1.0 0.9 0.8 1996 1997 1998 1999 2000 Solid waste 1.4 Production1) Solid waste 1.3 1.2 1.1 1.0 0.9 0.8 0.7 0.6 1996 1997 1998 1999 2000 SO2 1.4 Production1) SO2 1.3 1.2 1.1 1.0 0.9 0.8 0.7 1996 1997 1998 1999 2000 NOx 1.4 *) Former Consolidated Papers, Inc. figures are included in these graphs Production1) NOx 1.3 from 1996 onwards, even though the acquisition only took place 1.2 in August 2000. 1.1 1.0 1) Sales production of market pulp, paper and board 2) Bleached chemical pulp 0.9 0.8 Index 1996 = 1.0 1996 1997 1998 Stora 1999 Enso 2000 Environmental Report 27 39349_217ERe2sh_E_UUSI 28.3.2001 21:08 Sivu 28 Production, waste disposal and emissions (tonnes) Site Productiona) Product Landfillb) 2000 SOxc) 2000 1999 1999 2000 1,000 - 1999 ➎ 12,000 11,000 ❶❾ 234,000 235,000 1,507 1,723 ❹❶❾ 473,000 428,000 10,773 8,506 4,472 3,217 ➏ 127,000 104,000 5,935 6,947 599 680 ❸❶❾ ❹ ❸❾ ❸❷➏❾ ❹ ❶➏➎❾ ❹ ➎ ❷❹❾ ❸❾ ❶❾ ❷❶❸➎❾ ❷❶❾ 653,000 660,000 26,174 23,948 130 129 604,000 605,000 9,110 7,808 282 260 The Baltic Countries Latvia, Lithuania, Estonia (Packaging Baltic) 370 l) - Belgium Langerbrugge i) i) Canada Port Hawkesbury China Suzhou Finland Anjalankoski Enocell Heinola (Fluting) Imatra Kemijärvi Kotka Kotka (Keräyskuitu) Lahti, Heinola, Ruovesi (Packaging Finland) Oulu Pankakoski Summa Varkaus Veitsiluoto 263,000 248,000 1,009,000 1,023,000 4,755 5,930 870 900 14,501 l) 19,000 1,232 1,338 209,000 298,000 216,000 11,500 10,200 359 483 302,000 3,275 2,373 303 370 67,000 70,000 14,000 l) 17,600 3 - 76,000 74,000 710 31 30 807,000 808,000 q) 40,054 l) 45,285 634 m) 899 80,000 75,000 1,556 l) 2,851 11 m) 198 443,000 449,000 5,525 1,636 59 67 628,000 631,000 15,813 l) 17,300 566 428 801,000 781,000 4,360 5,580 ❶❾ 458,000 482,000 14,609 8,356 ❸ ❶❾ ❶❾ ❶❾ ❹❶❾ ❷ ❶❾ 183,000 158,000 5,753 1,143 588,000 546,000 5,970 r) 489 558,000 492,000 l) 187 202,000 206,000 5 l) 79 380,000 365,000 3,416 2,867 2.6 216,000 213,000 0 0 0 148,000 150,000 250 290 ➏ 163,000 164,000 1 1 0 0 ➎ 2,000 0 12 0 - 0 ❹ 286,000 274,000 ❸ 27,000 12,000 148 ❸ 145,000 143,000 4,489 584 960 m) 1,240 France Corbehem 1,256 2,369 Germany Baienfurt Kabel Maxau Reisholz Sachsen Uetersen Wolfsheck 63 0.2 n) 37 i) 22 i) 21 i) i) 0.4 0 i) i) Netherlands Berghuizer Poland Grudziadz (Packaging Poland) Portugal Celbi 11,673 l) 154 m) 315 100 0.7 0.6 3,652 0 0 13,966 Russia Balabanovo Spain Barcelona Explanations 28 Stora Enso ❶ ❻ Environmental = newsprint and magazine paper = laminating paper Report ❷ ➐ = fine paper = sawn timber ❸ ❽ = board and packaging paper = red paint pigment 39349_217ERe2sh_E_UUSI 28.3.2001 21:08 Sivu 29 ) NOxd) COD AOX Phosphorus Nitrogen 2000 1999 2000 1999 2000 1999 2000 1999 2000 1999 - - 18 - - - - - - - 527 471 - - 0 0 0 0 9,091 o) 14,146 - - - - - - - - 0.9 0.9 19.2 19 Footnotes a) i) 674 i) 700 40 j) 96 j) 94 87 504 803 1,963 2,575 - - 3.8 8.6 66.6 85 1,074 1,064 7,311 8,373 83.5 87.1 1.7 1.9 40 39.6 500 560 1,398 1,015 - - 4.4 4 30.3 41 1,751 1,841 21,419 22,159 156 171 13 18 211 269 372 374 7,190 6,980 18.9 22 10.6 10 124.6 113 260 280 3,396 3,596 0 0 8.8 11 67 64 0.6 6 - 232 143 - - 0.1 0.1 0.9 22 20 - - - - - - - - 918 1,238 9,106 9,901 94 87 11 14 99 146 70 101 806 - - 0.4 0.6 7 8 202 218 957 731 - - 1.9 2.2 27.9 27.7 904 873 6,808 6,738 24 27 13.4 18 125 133 1,098 919 14,306 13,030 54.3 42 12.8 13 116.7 154 1,002 1,262 1,459 1,270 1 0.8 18.1 17 0 0 22 390 o) 136 i) 213 i) 325 i) i) 374 325 42 55 i) 319 471 0.2 0.3 1.2 2 8 17 1,153 1,028 0.18 0.2 5.6 2.4 38 1.8 1,962 1,966 0.7 1 6.9 0.05 k) 0.1 k) 89 k) 701 25.4 k) 13 k) k) 0.9 0.9 0.6 5.9 0.2 k) 0.1 k) 0.1 k) 0.1 k) 3.8 k) 162 0.1 0.1 4.7 4 11.3 8 67 d) 89 0.1 0.3 3 1.6 23 15 172 651 7 k) 0.8 85 k) i) 80 k) 89 k) 9.6 4 k) 122 124 - 0 0 0 0 0 0 0 0 0 388 306 5,212 5,546 29 64 63 42 57 47 28 25.5 - - - - - - - - 51 93 1,644 1,727 - 0 - 0 - 0 ❹ ❾ = market pulp ➎ Reported production refers exclusively to end products. Production of sawn timber is reported in m3, other products in tonnes. Figures refer to saleable net production excluding inventory changes. b) Waste is reported in its dry state. Original dry content and volume-to-weight conversion are in some cases estimates. c) SOX is calculated as SO2 (sulphur dioxide) and includes all sulphurous compounds. d) NOX is calculated as NO2 (nitrogen dioxide). e) Figures refer to the whole of 2000 although Consolidated Papers, Inc. was only aquired in August 2000. Also figures from 1999 are included in the grand totals. f) WQC serves Biron Mill, Wisconsin Rapids Paper Mill and Wisconsin Rapids Pulp Mill. g) WRC serves Stevens Point Mill and Whiting Mill. h) Relatively high SO2 and NOx values are due to the 27% share of coal in the energy mix for U.S. facilities and the design of coal-fired boilers. i) No energy production on site. j) Estimation is based on fuel mixture and design of the boilers. k) Process water is treated in the external treatment facility. l) Reduced amount of landfill disposal is due to new applications for various residual products and/or improved solid waste management. m) Reduced emission of SO2 is due to decreased use of fossil fuels and/or new boiler installation. n) Reduced emission of SO2 is due to liquidation of chemical pulp production. o) Reduced discharge of COD is due to installation of new process water treatment facilities and/or improved waste water management. p) Change from last year is due to compiling error. q) Market pulp is not included previous year. r) Increased amount of landfill disposal is due to temporary marketing problems with residual products. – not analysed = converted products (e.g. cores, impregnated laminating paper, corrugated board) = excluding internally consumed pulp Stora Enso Environmental Report 29 39349_217ERe2sh_E_UUSI 28.3.2001 21:08 Sivu 30 Production, waste disposal and emissions Site Productiona) Product 2000 Landfillb) 1999 2000 (tonnes) SOxc) 1999 2000 0 2.5 7,396 40 1999 Sweden Falun (Red Paint) Fors Fors, Hammarby Gruvön Grycksbo Hylte Kvarnsveden Mölndal Norrsundet Nymölla Jönköping, Vikingstad, Skene (Packaging Sweden) Skoghall Skutskär ❽ ❸❾ ➎ ❹❸❾ ❷ ❶❾ ❶❾ ❷❸ ❹ ❹❷❾ ➎ ❸❾ ❹ 1,000 1,000 311,000 234,000 678 l) 0 l) 32,000 23,000 16 581,000 566,000 26,500 390 208,000 170,000 3,538 1,195 771,000 758,000 42,975 44,135 26,100 41 0 0 39 m) 109 85 94 30 n) 44 682,000 673,000 4,500 4,816 91,000 106,000 2,777 2,277 136 i) 108 m) 531 602 274,000 271,000 6,234 5,137 376 491,000 461,000 6,436 9,870 544 m) 76 l) 109 6.8 i) 91,000 91,000 529,000 392,000 16,575 l) 17,736 298 m) 410 7 499,000 450,000 17,419 17,813 680 574 ❸ 32,000 31,000 - 700 - ❶❾ ❶❹❾ ❶❷❾ ❶❾ ❷ ❶❾ ❷ ❸➎ ❹ 383,000 352,000 3,650 5,246 4,879 294,000 292,000 2,185 0.1 0 United Kindom Newton Kyme - USAe) h) Biron Duluth Kimberly Niagara Stevens Point Whiting Wisconsin Rapids Paper Wisconsin Rapids Paperboard Wisconsin Rapids Pulp 2,631 l) 441,000 381,000 23,429 26,902 1,511 1,421 201,000 197,000 8,968 9,337 1,897 2,219 136,000 121,000 316 384 0.4 0.4 190,000 185,000 257 325 214 195 456,000 481,000 1,971 1,840 0.1 0.1 39,000 40,000 185 157 0 0 397,000 401,000 41,173 l) 48,813 1,811 1,785 2,848 4,040 32 32 15,240 16,959 32 32 Water Quality Center f) Water Renewal Center 425 l) g) Corenso Corenso, core factories Pori St. Seurin-sur-l´Isle ➎ ❸ ❸ 77,000 56,000 1,623 277 - - 102,000 94,000 8,500 10,000 5.2 6.9 73,000 67,000 4,186 4,086 0 0 3,563,000 3,412,000 8,527 4,420 151 143 1,250,000 1,173,000 17,520,000 16,817,000 455,657 476,156 24,931 26,072 4,813,000 4,585,000 8,527 4,420 151 143 464,184 480,576 25,082 26,215 Stora Enso Timber Non-integrated sawmills Integrated sawmills Total pulp, paper & board, tonnes ➐ ➐ Total timber, m3 Grand total Explanations 30 Stora Enso ❶ ❻ Environmental = newsprint and magazine paper = laminating paper Report ❷ ➐ = fine paper = sawn timber ❸ ❽ = board and packaging paper = red paint pigment 39349_217ERe2sh_E_UUSI 28.3.2001 21:08 Sivu 31 ) NOxd) COD AOX Phosphorus Nitrogen 2000 1999 2000 1999 2000 1999 2000 1999 2000 1999 - - 0 0 0 0 0 0 0 0 83 59 2,824 2,054 0.7 0.4 1.4 1 22.6 22 Footnotes a) - - 0 0 0 0 0 0 0 0 796 871 16,500 15,620 49 56 33 26 230 198 27 53 100 113 0.3 0.3 0.1 0.1 17.3 15 227 252 3,067 2,978 0.6 0.7 2.8 4 27.7 29 241 211 2,023 1,348 1.1 0.9 2.8 2 35 28 123 154 0.2 0.3 0.2 0.9 7.1 16 45 i) i) 473 435 8,810 8,560 38 43 15 15 60 65 594 589 12,883 13,200 2.4 2 12.5 13 140 149 - - 457 455 - 8,892 6,623 9.5 5.9 13 18 87 85 602 691 16,550 16,180 98.5 82 22.9 23 85.3 76 - - - - - - - - - - - - - - - - 2,111 2,002 k) k) k) k) k) k) k) k) 0.1 0 k) k) k) k) k) k) k) k) 555 525 611 613 7.7 7.38 10.1 11.2 31.7 711 711 720 754 1.2 1.32 6.7 7.4 17.2 52 49 k) k) k) k) k) k) k) k) 461 446 k) k) k) k) k) k) k) k) 6.7 k) k) k) k) k) k) k) k) 1 k) k) k) k) k) k) k) k) 1,838 k) k) k) k) k) k) k) k) 6.7 1 1,816 - - 69.9 66.2 13.8 12.3 98.4 100.5 759 393 0.7 0.74 4.6 5.2 25.2 20.1 0 0 0 0 0 0 - - 0.1 0.3 7.6 5.7 - 91 157 - - - - - 343 116 123 - - 3.3 2.3 - 0.1 20,937 189,828 194,070 398 ❹ ❾ 20,707 0 - 20,296 18,411 785 4.1 398 17.7 395 o) 4.1 19,898 31.1 0 - 742.83 771.04 325.3 318.4 123 0 0 3.3 2.3 21,280 189,944 194,193 742.83 771.04 328.6 320.7 343 = market pulp 116 ➎ 1,999.7 2,073.4 0 0.1 Reported production refers exclusively to end products. Production of sawn timber is reported in m3, other products in tonnes. Figures refer to saleable net production excluding inventory changes. b) Waste is reported in its dry state. Original dry content and volume-to-weight conversion are in some cases estimates. c) SOX is calculated as SO2 (sulphur dioxide) and includes all sulphurous compounds. d) NOX is calculated as NO2 (nitrogen dioxide). e) Figures refer to the whole of 2000 although Consolidated Papers, Inc. was only aquired in August 2000. Also figures from 1999 are included in the grand totals. f) WQC serves Biron Mill, Wisconsin Rapids Paper Mill and Wisconsin Rapids Pulp Mill. g) WRC serves Stevens Point Mill and Whiting Mill. h) Relatively high SO2 and NOx values are due to the 27% share of coal in the energy mix for U.S. facilities and the design of coal-fired boilers. i) No energy production on site. j) Estimation is based on fuel mixture and design of the boilers. k) Process water is treated in the external treatment facility. l) Reduced amount of landfill disposal is due to new applications for various residual products and/or improved solid waste management. m) Reduced emission of SO2 is due to decreased use of fossil fuels and/or new boiler installation. n) Reduced emission of SO2 is due to liquidation of chemical pulp production. o) Reduced discharge of COD is due to installation of new process water treatment facilities and/or improved waste water management. p) Change from last year is due to compiling error. q) Market pulp is not included previous year. r) Increased amount of landfill disposal is due to temporary marketing problems with residual products. – not analysed 1,999.7 2,073.5 = converted products (e.g. cores, impregnated laminating paper, corrugated board) = excluding internally consumed pulp Stora Enso Environmental Report 31 39349_217ERe2sh_E_UUSI 28.3.2001 21:08 Sivu 32 Infractions, complaints and corrective measures With few exceptions, the requirements of the environmental permits regulating production at Stora Enso’s various units were fulfilled by comfortable margins. Infractions The permitted COD limit was temporarily exceeded (by 16%) at Pankakoski Mill in February due to a breakage in a waste water pipe. This section of pipeline, running through the bottom of a river was repaired promptly, and then replaced with a subterranean pipeline in September, so that the whole pipeline now runs underground. At Veitsiluoto Mill waste water loads between the pulp and paper mills and treatment plants were exceptionally high after the Christmas shutdown, and the BOD limit was slightly exceeded in January. The authorities were satisfied with the measures taken by Veitsiluoto Mill to solve this problem however, and no penalties were imposed. At Heinola Fluting Mill the environmental authorities have requested an account of how certain waste water outlet limits were temporarily exceeded. The causes were a proliferation of filamentous bacteria in the activated sludge system coupled with the unsatisfactory performance of the anaerobic process. To address this problem, new equipment feeding liquid oxygen into the aeration basin was installed near the end of 2000, and fresh sludge was also added to the anaerobic plant. The related investigations, and negotiations with the authorities on further measures to be taken, will continue into 2001. The Water Quality Center at Wisconsin Rapids (WQC) exceeded its maximum BOD levels for two days in May, which led to a notification from the local 32 Stora Enso Environmental Report authorities. The violations were due to unsuccessful attempts to treat high soap and liquor losses from the Wisconsin Rapids Pulp Mill. A plan of action was made, including operational and equipment changes at the pulp mill and its waste water treatment facility. The authorities accepted the plan and no penalties were imposed. The WQC also treats waste water from the Biron Mill and the Wisconsin Rapids Paper Mill. The Wisconsin Rapids Pulp Mill received a notice of violation for particulate emissions from a smelt-dissolving tank. The plant’s scrubber system was then upgraded during the July maintenance outage and performance testing indicated comfortable compliance with the particulate limits. The authorities still require particulate emission testing until compliance is demonstrated. The federal environmental protection agency has criticised Wisconsin Rapids Pulp Mill for violations of the Clean Air Act related to projects between 1983 and 1991. The agency also requires the installation of air emission control equipment, and has imposed penalties. Stora Enso North America made a counter proposal designed to resolve the alleged violations. Discussions with the federal authorities are continuing in an attempt to resolve the situation. Compensation claims Two eel-fishing parties made complaints against Nymölla Mill, claiming that their catches had declined. A settlement was reached, and the case dating from the 1980’s was also withdrawn from the environmental court. 39349_217ERe2sh_E_UUSI 28.3.2001 21:08 Sivu 33 At Skutskär Mill blasting work for the harbour and quay project caused some minor damage, which has been repaired. A second complaint at Skutskär concerned the discharge of dust from a recovery boiler during its shutdown period. Some of the dust settled onto a house nearby, and minor measures had to be taken, such as cleaning windows. Summa Mill paid compensation to local residents when the water in the Summa River fell below its regulated level during the exceptionally dry summer of 1999. The mill was nevertheless granted special permission to continue taking water from the river. Barcelona Mill clarified its operating mode with the municipal plant currently treating its waste water, and the two waste water claims pending from 1999 were cancelled. Corrective measures At Berghuizer Mill a complaint concerning odours was received by the local authorities. Corrective measures have already been taken, involving improving the management of the waste water treatment plant and investing in equipment to reduce starch leakages during the production process. During the second half of 2000 no new complaints about odours were recorded, but odours from the water treatment plant are still being monitored on a daily basis. At Keräyskuitu Oy in Kotka, small amounts of fibres from the de-inked pulp drying process were being released into the air. In order to prevent this problem a new fan and heat exchanger with a higher capacity was started up in December 2000. Fors Mill is working together with the local authorities and stakeholders in order to discover the origin and composition of material that occasionally rises to the surface of Lake Bäsingen. Fifty litres of oil was spilled into a lake near Enocell Mill in May, but a new control system has now been installed to avoid similar spills. In Heinola, the local authorities have received complaints about noise levels in Heinola Packaging Mill. A decision has now been made to renew the offending box plant waste treatment system during 2001. Riga Mill has had to pay fines to the Riga city waste water treatment plant for emitting excessive levels of copper, COD, and oil products. During 2000 the sources of these emissions were analysed, and plans have been made to reduce the amount of water used, and re-circulate cooling water. During the coming enlargement of Kabel Mill’s waste water treatment plant measures will be taken to prevent the reoccurrence of odours which have previously attracted complaints. Stora Enso Environmental Report 33 39349_217ERe2sh_E_UUSI 28.3.2001 21:08 Sivu 34 Examination report Statement We have examined the financial information presented on page 13 and the information regarding resource utilisation and environmental performance presented on pages 26–31 of the Stora Enso Group’s Environmental Report 2000. The information in the report is the responsibility of and has been approved by the management of the Group. The management of the Group commissioned us to perform the procedures set out below: • Assess the procedures used to collect quantitative information on environmental issues selected by the management, from those production units included in the report. • Assess whether this information obtained from the production units has been compiled correctly and presented appropriately. • Assess whether the information in the report is in all materiality consistent with similar information in the 2000 Annual Report of the Group. Our work consisted of meetings with management responsible for environmental issues and examination of information compiled by Stora Enso Environment. In our opinion the quantitative information of the Stora Enso Group presented on the above-mentioned pages of the Environmental Report 2000 is based on information collected with due care from the production units. Further, it is our opinion that this information is presented in an appropriate manner in the report. Helsinki, February 19, 2001 SVH Pricewaterhouse Coopers Oy, Authorized Public Accountants Pekka Nikula Authorized Public Accountant 34 Stora Enso Environmental Report Henrik Sjöblom Senior Manager 39349_217ERe2sh_E_UUSI 28.3.2001 21:08 Sivu 35 Contacts Contacts Contacts Group Divisions Finland Stora Enso Environment Per G. Broman SE-79180 Falun, Sweden Tel. +46 23 78 82 05 Fax +46 23 78 82 82 [email protected] Stora Enso Magazine Paper Klaus Barduna Feldmühleplatz 1 D-40545 Düsseldorf, Germany Tel. +49 211 581 2432 Fax +49 211 581 2436 Stora Enso Environment Tuija Suur-Hamari Kotka Mill P.O. Box 62-63 FIN-48101 Kotka Tel. +358 2046 25241 Fax +358 2046 25506 Stora Enso Environmental Communications Päivi Sihvola P.O. Box 309 FIN-00101 Helsinki, Finland Tel. +358 2046 21380 Fax +358 2046 21007 Stora Enso Newsprint Jussi Koch Feldmühleplatz 1 D-40545 Düsseldorf, Germany Tel. +49 211 581 2350 Fax +49 211 581 2329 Stora Enso Transport and Distribution Karin Nordell SE-79180 Falun, Sweden Tel. +46 23 78 24 36 Fax +46 23 294 38 E-mail addresses: [email protected] (unless otherwise given). Note: Å/å and Ä/ä become a, Ö/ö becomes o. Stora Enso Fine Paper Veitsiluoto Mill Hannu Nurmesniemi FIN-94800 Kemi, Finland Tel. +358 2046 34699 Fax +358 2046 34861 Stora Enso Packaging Boards Matti Salste FIN-55800 Imatra, Finland Tel. +358 2046 22163 Fax +358 2046 24731 Stora Enso Pulp Eeva Punta P.O. Box 2 FIN-81281 Uimaharju, Finland Tel. +358 2046 28004 Fax +358 2046 28569 Stora Enso Timber Veitsiluoto Sawmill Jaakko Mikkola FIN-94800 Kemi, Finland Tel. +358 2046 34665 Fax +358 2046 34787 Order an EMAS report! By the end of 2000, 80% (up from 76% in 1999) of the company’s pulp, paper and board production capacity was covered by ISO 14001 and/or EMAS. ✹ EMAS ● ISO 14001 Papyrus Merchants ● Nils Sylvan P.O. Box 1004 SE-43126 Mölndal, Sweden Tel. +46 31 67 06 34 Fax +46 31 87 24 28 [email protected] Stora Enso North America James D. Weinbauer P.O. Box 8050 Wisconsin Rapids Wisconsin 54495-8050 USA Tel. +1 715 422 3693 Fax +1 715 422 3203 [email protected] EMAS reports can be ordered from units marked Stora Enso Forest Consulting Leena Hytönen Kuparintie 47 FIN-55100 Imatra Tel. +358 2046 24967 Fax +358 2046 24960 Stora Enso Metsä ✹ ● Veli-Matti Rytkönen FIN-55800 Imatra Tel. +358 2046 23058 Fax +358 2046 23097 Stora Enso Metsä International Wood Procurement (see Stora Enso Metsä) Stora Enso Energy Finland Jukka Mikkonen FIN-55800 Imatra Tel. +358 2046 23289 Fax +358 2046 24710 Stora Enso Newsprint Anjalankoski Mill ✹ ● Pekka Reponen FIN-46900 Anjalankoski Tel. +358 2046 26461 Fax +358 2046 26320 (Newsprint, Magazine Paper, Cartonboards) Stora Enso Imatra Mills ✹ ● Hilkka Hännikäinen FIN-55800 Imatra Tel. +358 2046 22313 Fax +358 2046 24755 (Fine Paper, Packaging Boards) Stora Enso Kotka Mill ✹ ● Tuija Suur-Hamari P.O. Box 62-63 FIN-48101 Kotka Tel. +358 2046 25241 Fax +358 2046 25506 (Magazine Paper, Laminating Papers, Timber) ✹ Stora Enso Environmental Report 35 Contacts 39349_217ERe2sh_E_UUSI 28.3.2001 21:08 Stora Enso Summa Mill ● Erkki Waldén FIN-49420 Hamina Tel. +358 2046 25665 Fax +358 2046 25699 (Newsprint, Magazine Paper) Stora Enso Packaging Ruovesi Mill ● Heikki Mölsä Sahantie 15 FIN-34450 Jäminkipohja Tel. +358 2046 48202 Fax +358 2046 48300 Stora Enso Varkaus Mill ✹ ● Heikki Monto P.O. Box 169 FIN-78201 Varkaus Tel. +358 2046 32691 Fax +358 2046 32111 (Newsprint, Fine Paper, Packaging Boards, Timber) Corenso ✹ ● Erkki Saloma P.O. Box 194 FIN-28101 Pori Tel. +358 2 550 3888 Fax +358 2 550 3802 (EMAS refers to the board mill) Stora Enso Veitsiluoto Mill ✹ ● Hannu Nurmesniemi FIN-94800 Kemi Tel. +358 2046 34699 Fax +358 2046 34861 (Fine Paper, Magazine Paper, Timber) Stora Enso Fine Paper Oulu Mill ✹ ● Marjaana Luttinen P.O. Box 196 FIN-90101 Oulu Tel. +358 2046 33637 Fax +358 2046 33382 Stora Enso Timber Honkalahti Sawmill ✹ Veikko Metso P.O. Box 12 FIN-54101 Joutseno Tel. +358 2046 21560 Fax +358 2046 21680 Stora Enso Pulp Kemijärvi Mill ● Tapio Ylikangas P.O. Box 100 FIN-98101 Kemijärvi Tel. +358 2046 35115 Fax +358 2046 35200 Sweden Stora Enso Environment Kristina Larsson SE-79180 Falun Tel. +46 23 78 82 06 Fax +46 23 78 82 82 Stora Enso Skog ● Börje Pettersson SE-79180 Falun Tel. +46 23 78 25 47 Fax +46 23 78 26 77 ● Stora Enso Timber Hämeenkoski Sawmill ✹ Pauli Vainionpää FIN-16800 Hämeenkoski Tel. +358 2046 47008 Fax +358 2046 47002 Stora Enso Newsprint Hylte Mill ✹ ● Björn Lood SE-31481 Hyltebruk Tel. +46 345 192 74 Fax +46 345 108 76 ● Stora Enso Newsprint Kvarnsveden Mill ✹ ● Gunilla Jämte P.O. Box 733 SE-78127 Borlänge Tel. +46 243 651 53 Fax +46 243 23 79 48 Stora Enso Timber Kitee Sawmill ✹ ● Martti Nieminen Teollisuustie 27 FIN-82430 Puhos Tel. +358 2046 21912 Fax +358 2046 21996 Stora Enso Packaging Boards Heinola Fluting Mill ● Seppo Koivunen P.O. Box 5 FIN-18101 Heinola Tel. +358 3 842 9330 Fax +358 3 842 9290 Stora Enso Fine Paper Grycksbo Mill ✹ ● Jaana Ahlroos SE-79020 Grycksbo Tel. +46 23 680 39 Fax +46 23 683 56 Stora Enso Timber Tolkkinen Sawmill ✹ ● Allan Roponen P.O. Box 62-63 FIN-48101 Kotka Tel. +358 2046 25550 Fax +358 2046 25494 Stora Enso Packaging Boards Pankakoski Mill ● Kirsi-Marja Kuivalainen FIN-81750 Pankakoski Tel. +358 2046 27795 Fax +358 2046 27633 Stora Enso Timber Uimaharju Sawmill ✹ Pekka Piironen P.O. Box 1 FIN-81281 Uimaharju Tel. +358 2046 28420 Fax +358 2046 28570 Stora Enso Packaging Lahti Mill ✹ ● Juha Isomäki P.O. Box 4 FIN-15701 Lahti Tel. +358 2046 27251 Fax +358 3 734 6184 Stora Enso Fine Paper Mölndal Mill ✹ ● Thomas Ericsson P.O. Box 213 SE-43123 Mölndal Tel. +46 31 67 51 70 Fax +46 31 67 52 25 ● Stora Enso Fine Paper Nymölla Mill ✹ ● Anders Wetterling SE-29580 Nymölla Tel. +46 44 10 41 81 Fax +46 44 541 68 Stora Enso Pulp Enocell Mill ✹ ● Eeva Punta P.O. Box 2 FIN-81281 Uimaharju Tel. +358 2046 28006 Fax +358 2046 28569 Stora Enso Packaging Heinola Mill ✹ ● Juha Isomäki P.O. Box 38 FIN-18101 Heinola Tel. +358 2046 27251 Fax +358 3 734 6184 ✹ EMAS ● ISO 14001 36 Sivu 36 EMAS reports can be ordered from units marked Stora Enso Packaging Boards Fors Mill ✹ ● Leif Jansson SE-77489 Fors Tel. +46 226 351 57 Fax +46 226 352 56 ✹ E-mail addresses: [email protected] (unless otherwise given). Note: Å/å and Ä/ä become a, Ö/ö becomes o. Stora Enso Environmental Report Stora Enso Packaging Jönköping, Vikingstad, Skene ● Lennart Millegård P.O. Box 1055 SE-55110 Jönköping Tel. +46 36 31 88 62 Fax +46 36 31 88 06 [email protected] 28.3.2001 21:08 Sivu 37 Stora Enso Packaging Boards Skoghall Mill ● Kjell Kumlin P.O. Box 501 SE-66329 Skoghall Tel. +46 54 51 43 03 Fax +46 54 51 46 77 Stora Enso Magazine Paper Kabel Mill ✹ ● Detlef Schroth Schwerter Straße 263 D-58099 Hagen Tel. +49 2331 699 537 Fax +49 2331 699 1537 Stora Enso Timber Ala Sawmill ✹ ● Sören Calleberg P.O. Box 502 SE-82020 Ljusne Tel. +46 270 641 10 Fax +46 270 681 85 Stora Enso Magazine Paper Maxau Mill ● Jörg Böttger P.O. Box 210665 D-76156 Karlsruhe Tel. +49 721 956 6247 Fax +49 721 956 6128 Stora Enso Timber Gruvön Sawmill ✹ ● Sven-Olof Kvarnbratt P.O. Box 4 SE-66421 Grums Tel. +46 555 425 24 Fax +46 555 131 29 Stora Enso Magazine Paper Reisholz Mill ✹ ● Matthias Langenohl Bonner Straße 245 D-40589 Düsseldorf Tel. +49 211 971 6344 Fax +49 211 971 6242 Stora Enso Timber Kopparfors Sawmill ✹ Annika Bengtsson P.O. Box 24 SE-81721 Norrsundet Tel. +46 297 559 14 Fax +46 297 221 78 Stora Enso Timber Linghed Sawmill ✹ Annika Bengtsson SE-79025 Linghed Tel. +46 246 224 10 Fax +46 246 222 24 ● ● Stora Enso Pulp Norrsundet Mill ✹ ● Rolf Lundberg P.O. Box 4 SE-81721 Norrsundet Tel. +46 26 856 24 Fax +46 26 857 85 [email protected] Stora Enso Pulp Skutskär Mill ● Nils Ivarsson SE-81481 Skutskär Tel. +46 26 851 19 Fax +46 26 851 06 Stora Kopparbergs Bergslags AB Falun Red Paint ✹ ● Stig Johansson SE-79180 Falun Tel. +46 23 78 24 95 Fax +46 23 78 27 08 [email protected] Germany Stora Enso Environment Klaus Barduna Feldmühleplatz 1 D-40545 Düsseldorf Tel. +49 211 581 2432 Fax +49 211 581 2436 Stora Enso Magazine Paper Corbehem Mill ✹ Jean-Pierre Coloos Rue de Brebières P.O. Box 2 F-62112 Corbehem France Tel. +33 3 27 92 32 09 Fax +33 3 27 91 82 78 Stora Enso Magazine Paper Langerbrugge Mill Luc DeSmet Wondelgemkaai 200 B-9000 Gent Belgium Tel. +32 9 257 7211 Fax +32 9 257 7200 Stora Enso Magazine Paper Wolfsheck Mill ● (see Maxau Mill) Stora Enso Fine Paper Berghuizer Mill ✹ ● Adrienne Leebeek P.O. Box 1 NL-8190 AA Wapenveld Netherlands Tel. +31 3844 750 00 Fax +31 3844 784 98 Stora Enso Newsprint Sachsen Mill ✹ ● Renate Balzer P.O. Box 110 D-04833 Eilenburg Tel. +49 3423 650 369 Fax +49 3423 650 396 Corenso France ● Maita Arbeloa P.O. Box 4 F-33660 Saint-Seurin-sur l’Isle France Tel. +33 557 56 40 00 Fax +33 557 56 40 29 Stora Enso Fine Paper Uetersen Mill ✹ ● Epko-Estert Kluter P.O. Box 1144 D-25436 Uetersen Tel. +49 4122 719 400 Fax +49 4122 719 105 [email protected] Stora Enso España ✹ ● Juan Vila Apartado 76 E-08760 Martorell (Barcelona) Spain Tel. +34 93 631 1175 Fax +34 93 682 2630 Stora Enso Packaging Boards Baienfurt Mill ● Michael Spiegel Fabrikstraße D-88255 Baienfurt Tel. +49 751 404 219 Fax +49 751 404 400 Stora Enso Packaging Boards Tolosana Core Factory Krister Rosenqvist Packalén Apartado (P.O. Box 78) E-20400 Tolosa (Gipuzkoa) Spain Tel. +34 943 683 125 Fax +34 943 683 034 Corenso United Oy Ltd Jörg Elfes ● P.O. Box 20 01 50 D-47835 Krefeld Tel. +49 2151 769 80 Fax +49 2151 769 860 Stora Enso Timber Holzindustrie Schweighofer AG Otmar Mittermüller A-3531 Brand 44 Austria Tel. +43 2826 700 10 Fax +43 2826 700 1290 Other Europe Stora Enso Timber Benelux Miranda van Zomeren Archangelkade 8 NL-1013 BE Amsterdam Netherlands Tel. +31 20 680 7700 Fax +31 20 680 7710 Stora Enso Environment Klaus Barduna Feldmühleplatz 1 D-40545 Düsseldorf Tel. +49 211 581 2432 Fax +49 211 581 2436 Contacts 39349_217ERe2sh_E_UUSI Stora Enso Environmental Report 37 Contacts 39349_217ERe2sh_E_UUSI 28.3.2001 21:08 Stora Enso Pulp Celbi Mill ● Manuel Saraíva Santos P-3081-853 Figueira da Foz Portugal Tel. +351 233 955 600 Fax +351 233 955 648 [email protected] Stora Enso North America Biron Mill Cortney Schmidt 621 Biron Drive Wisconsin Rapids, WI 54494 USA Tel. + 1 715 422 2339 Fax + 1 715 422 2403 Stora Enso Packaging Riga Mill Peteris Treimanis Tiraines str. 5 LV-1058 Riga Latvia Tel. +371 767 0077 Fax +371 767 5815 Stora Enso North America Duluth Paper Mill Diane Gobin 100 North Central Avenue Duluth, MN 55807 USA Tel. + 1 218 628 5276 Fax + 1 218 628 0310 Stora Enso Packaging Kaunas Mill Genutis Balcaitis Ateities plentas 32C LT-3023 Kaunas Lithuania Tel. +370 7 310 690 Fax +370 7 310 684 Stora Enso North America Duluth Recycled Pulp Mill (see Duluth Mill) Stora Enso North America Kimberly Mill Mark Nessmann 433 North Main Kimberly, WI 54136 USA Tel. + 1 920 788 8418 Fax + 1 920 788 8609 Stora Enso Packaging Tallinn Mill Tarvo Treiman Laki 5 EE-0006 Tallinn Estonia Tel. +372 656 3074 Fax +372 656 3377 Stora Enso North America Niagara Mill David Schmutzler 1101 Mill Street Niagara, WI 54151 USA Puh. + 1 715 251 8253 Fax + 1 715 251 1730 Stora Enso Packaging Grudziadz Mill Slawomir Zamroch ul. Porucznika Krzycha 5 PL-86300 Grudziadz Poland Tel. +48 56 464 0000 Fax +48 56 464 0004 Corenso (UK) Limited Stuart Gibson Corenso House, Patriot Drive GB-Rooksley, Milton Keynes MK13 8LN Great Britain Tel. +44 1908 678 111 Fax +44 1908 690 067 Corenso Edam B.V. Dirk-Jan Emond P.O. Box 44 NL-1135 ZG Edam Netherlands Tel. +31 2993 711 40 Fax +31 2993 717 34 Stora Enso Environment James D. Weinbauer P.O. Box 8050 Wisconsin Rapids Wisconsin 54495-8050 USA Tel. +1 715 422 3693 Fax +1 715 422 3203 [email protected] Stora Enso Environmental Stora Enso North America Stevens Point Mill Karen Rozumalski 707 Arlington Place Stevens Point, WI 54481 USA Tel. + 1 715 345 8031 Fax + 1 715 345 8750 Stora Enso North America Whiting Mill Becky Wildenberg 2627 Whiting Road Stevens Point, WI 54481 USA Tel. + 1 715 345 6633 Fax + 1 715 345 6770 Stora Enso North America Water Renewal Center (see Whiting Mill) North America 38 Sivu 38 Report Stora Enso North America Wisconsin Rapids Paper Mill Dick Bartosh 231 First Avenue North Wisconsin Rapids, WI 54495 USA Tel. + 1 715 422 3394 Fax + 1 715 422 3770 ✹ EMAS ● ISO 14001 Stora Enso North America Wisconsin Rapids Paper Mill (No. 16 & Converting) Sharon Thimmesch 231 First Avenue North Wisconsin Rapids, WI 54495 USA Tel. +1 715 422 1612 Fax +1 715 422 4104 Stora Enso North America Wisconsin Rapids Paperboard Mill Wayne Hilgart 800 Freemont Street Wisconsin Rapids, WI 54495 USA Tel. +1 715 422 3746 Fax +1 715 422 3674 Stora Enso North America Wisconsin Rapids Pulp Mill Daniel Herman 950 Fourth Avenue North Wisconsin Rapids, WI 54495 USA Tel. +1 715 422 3345 Fax +1 715 422 3886 [email protected] Stora Enso North America Water Quality Center (see Wisconsin Rapids Pulp Mill) Stora Enso North America Port Hawkesbury Mill ● Derrick B. Cameron P.O. Box 9500 CDN-Port Hawkesbury Nova Scotia B9A 1A1 Canada Tel. +1 902 625 6149 Fax +1 902 625 2098 China Stora Enso Fine Paper Suzhou Mill Ding Yafen 159 Binhe Road Suzhou New District Suzhou 215011 Jiangsu Tel. +86 512 825 1060 2214 Fax +86 512 825 1711 [email protected] Russia Stora Enso Packaging ZAO Balabanovo Mill Lermontov str. 2, Kaluga region, Russia 249000 Tel. 08438-60740 Fax 08438-60440 [email protected] EMAS reports can be ordered from units marked ✹ E-mail addresses: [email protected] (unless otherwise given). Note: Å/å and Ä/ä become a, Ö/ö becomes o. 39349_217ERe2sh_E_UUSI 28.3.2001 21:08 Sivu 39 Glossary Glossary The papers used in this Environmental Report are – cover stock: Stora Enso G-Print 230 g/m2 and text stock Stora Enso G-Print 115 gm2 from Grycksbo Mill (ISO 14001-certified and EMAS-registered) Graphic design, concept and production: Incognito Design • Photo: Tuomo Manninen and Stora Enso (Lars Arvidson/Birger Roos) • Print: F.G. Lönnberg, Helsinki AOX BIO-FUELS BIOTOPE BOD CO2 COD EMAS FFCS FSC ISO ISO 14000 LCA NITROGEN NOx PEFC PHOSPHORUS RECIPIENT SC SO2 (Adsorbable organic halogen compounds) – Collective term for the amount of chlorine bound to organic pollutants, in waste water for example. – Fuels derived from renewable raw materials, such as bark and logging residuals. – Habitat. An area that is naturally distinct as a result of its local climate, soil conditions, flora and fauna. (Biological Oxygen Demand) – A measure of the amount of oxygen consumed by micro-organism in breaking down organic matter in effluent during a certain period. (Carbon dioxide) – Carbon dioxide is formed as a result of human and animal respiration. It is also formed during combustion. Trees utilise carbon dioxide in the growing process (photosynthesis). Carbon dioxide in the atmosphere is considered to contribute to the greenhouse effect. (Chemical Oxygen Demand) – Chemical oxygen-consuming substances. A measure of the amount of oxygen required for the total chemical breakdown of organic substances in water. (Eco Management and Audit Scheme) – Voluntary scheme based on an EU directive. (Finnish Forest Certification System). (Forest Stewardship Council). (International Organization for Standardization). – An international series of environment-related standards. – Life Cycle Assessment is a method for assessing the environmental impact of a product ”from the cradle to the grave”. – An element. A high nitrogen content in water, together with phosphorus and organic substances, can lead to increased biological activity in water, known as eutrophication. – A collective term for the nitrogen oxides formed during combustion. When precipitation occurs, they can contribute to the acidification of soil and water. NOx can also, together with hydrocarbons, react with sunlight to form ground-level ozone. (Pan-European Forest Certification). – An element. High phosphorus contents, combined with nitrogen and organic substances, can cause increased biological activity in water, known as eutrophication. – A sea, lake, watercourse or the atmosphere which emissions are discharged into. (Super Calendered) – An uncoated paper produced from mechanical pulp, sulphate (kraft) pulp and filler (china clay) treated mechanically between steel rolls to achieve a glossy printing surface. Used primarily for periodicals and advertising materials. (Sulphur dioxide) – Sulphur dioxide is formed when sulphur-containing fuels such as oil and coal are burned. Sulphur dioxide contributes to the acidification of soil and water. Abbreviations and conversion table for units of measurement TJ: GWh: TWh: ha: 1 million gallons 1 short ton 1 million BTU 1 Great Lakes rough cord Terajoule (1,000 billion joules) Gigawatt hours (1 billion watt-hours) Terawatt hours (1,000 billion watt-hours) Hectare (10,000 m2 or 100x100 m) = = = = 3,785.4 cubic metres 0.907 metric tonnes 1.055056 GJ 2.33 cubic metres of solid wood under bark Stora Enso Environmental Report 39 39349_ER-cover-E.fh 28.3.2001 19:16 Page 1 “Stora Enso complies with principles “Responsibility” Stora Enso Oyj P.O. Box 309 • FIN-00101 Helsinki • Finland Calling address: Kanavaranta 1 Tel. +358 2046 131 • Fax +358 2046 21471 Stora Enso P.O. Box 70395 • SE-107 24 Stockholm • Sweden Calling address: World Trade Center, Klarabergsviadukten 70 Tel. +46 8 613 66 00 • Fax +46 8 10 60 20 Stora Enso International Office 9, South Street • London W1K 2XA • U.K. Tel. +44 2084 321 500 • Fax +44 2084 321 600 www.storaenso.com [email protected] of sustainable development” E N V I R O N M E N TA L R E P O R T 2 0 0 0 Composite