Energy Saving Type
Transcription
Energy Saving Type
Table of Contents Title of the Projects Page No Introduction of Energy Saving Project in Industrial Area (Chiyoda Corporation) 1 Construction of Super Large LNG Plant (Energy Saving Type) in Qatar (Chiyoda Corporation) 2 Development of Beam Down Concentrated Solar Power Technology (COSMO OIL CO.,LTD.) 3 Model project for commercial (building) energy-saving (Japan Facility Solutions, Inc. ) 4 Our New Engineering Firm Commences Operations in Saudi Arabia! (JGC Corporation) 5 Carbon Dioxide Capture and Storage (CCS) (JGC Corporation) 6 Heavy Crude Oil Upgrading integrated with Steam and Power generation (JGC Corporation) 7 Project Development of High Efficiency Power Generation System based on the Gas Turbine Fuel produced from Crude Oil (JGC Corporation) 8 Energy-saving and CO2 reduction by Cement Waste Heat Power Plant (KAWASAKI Plant Systems, Ltd.) 9 Concept of Ecological Vegetable Factory by Organic Solar Cell (Mitsubishi Chemical and others) 10 Flue Gas CO2 Recovery Technology of Mitsubishi Heavy Industries, Ltd. (Mitsubishi Heavy Industries, Ltd.) 11 Energy-Saving Seawater Desalination Project Rabigh IWSPP Project (KSA) Shuqaiq IWPP Project (KSA) (Mitsubishi Heavy Industries, Ltd.) 12 NAS Battery System for Substations in Abu Dhabi Reduces CO2 Emission (NGK Insulators, Ltd) 13 Toward Sustainable Urban Development and Architecture (Nikken Sekkei) 14 Metering System for Energy saving (OSAKI ELECTRIC CO.,LTD.) 15 Sekisui Green Community Project (SEKISUI CHEMICAL Ltd) 16 CO2 Emission Reduction by utilization of HIGH Efficiency Heat Pumps (Heat Pump & Thermal Storage Center of Japan) 17 Ultra High Voltage Transmission Technology Consultation (TEPCO,CRIEPI) 18 Technical Cooperation on the Promotion of Energy Efficiency in the Kingdom of Saudi Arabia (TEPCO) 19 An Innovative Power Station with Solar Energy and Combined Cycle (Toyota Tsusho Corporation ) 20 Project on Environmentally Friendly Energy Saving System for the Power Generation and Desalination by using Industrial Waste Heat Energy DTEC System (Xenesys Inc.) 21 Desert Region Renewable Energy Use Experiment (YAZAKI CORPORATION TECHNO YAZAKI Co., Ltd.) 22 Contact Information Ken SAKAGUCHI International Affairs Division Agency for Natural Resources and Energy Ministry of Economy, Trade and Industry 1-3-1 Kasumigaseki,Chiyoda-ku, Tokyo 100-8901 JAPAN TEL:+81-3-3501-0598 FAX:+81-3-3595-3056 E-mail: [email protected] URL:http://www.meti.go.jp Introduction of Energy Saving Project in Industrial Area y Execution䋺 䋨Japan side䋩 䋨Saudi Arabia side䋩 Chiyoda Corporation Saudi Aramco SABIC * Presented in December, 2007, with Tokyo electric power co. , supported by JICA. y Summary䋺 䋱䋩How to implement Energy Saving based on Japanese Energy Conservation Law 䋲䋩Industrial energy saving analysis by area-wide pinch technology 䋳䋩An energy saving project by energy sharing system and low heat power generation system between two factories in industrial area. 1 Construction of Super Large LNG Plant (Energy Saving Type) in Qatar y Execution䋺 䋨Japan side䋩 䋨Qatar side䋩 Chiyoda Corporation RasGas 3 Qatargas㸈 Qatargas 3&4 y Summary䋺 Qatar have much contributed to the world’s trend of energy resource shift to clean energy, with annual total LNG production plan of 77MM ton. In Qatar, Chiyoda Corporation has constructed 7.8 MMTPA x 6 trains of Super Large LNG Plant, which are energy saving type with high thermal efficiency. Ras Laffan Industrial Area (2008) Ras Laffan Port Qatargas Plants RasGas Plants RasGas 3 Qatargas II Qatargas 3&4 AKG2 17 2 Development of Beam Down Concentrated Solar Power Technology y Project Owner (JAPAN ) COSMO OIL CO.,LTD. (UAE) Abu Dhabi Future Energy Company(MASDAR) y Project Abstract COSMO OIL and MASDAR are jointly taking part of the Collaborative Research of the Beam Down Concentrated Solar Power (CSP)Technology which is originated from longtime Research and development by Tokyo Institute of Technology. In this project, a Pilot Plant is planned to build at MASDAR CITY in Abu Dhabi and various experimental activities using the plant are scheduled in order to verify the technology. In recent years, the CSP technologies are receiving a great attention as a most advanced renewable energy in all over the world, especially in Sunbelt Zone. Image of Beam Down CSP Commercial Plant Project Site Project Site Central Reflector Abu Dhabi Int’l Airport Receiver MASDAR CITY Heliostat 3 Model project for commercial (building) energy-saving y Implementing bodies: Japanese side: NEDO and Japan Facility Solutions, Inc. Chinese side: National Development and Reform Commission, Shanghai Development and Reform Commission and Garden Hotel (Shanghai) y Outline: This project is designed to reduce the amount of energy consumed by the whole building through comprehensively efficient operation by introducing cogeneration systems and CO2 refrigerant heat pumps, etc. in commercial buildings and utilizing BEMS (Building and Energy Management System). Photovoltaic power generation system Power reception Cogeneration Heat pump for heating BEMS system CO2 refrigerant heat pump Heat pump for swimming pool Hot heat High-efficiency package air conditioner Once-through boiler Pump variable flow control Cold heat Turborefrigerator Pump variable flow control Air conditioner variable air volume control Air conditioner outside air volume control Pump variable flow control Illumination and others Air conditioner Hot water supply and swimming pool Indoor unit Air conditioning Energy demand in hotel 4 Our New Engineering Firm Commences Operations in Saudi Arabia! y y Participants ᲢJapanese sideᲣ JGC Corporation ᲢCountry ConcernedᲣSaudi Arabia Project Summary JGC Corporation has established its new engineering firm, “JGC Gulf International” in Saudi Arabia. This firm is a wholly-owned subsidiary of JGC, which is intended to provide integrated plant engineering services, ranging from plant design to procurement and construction. Through its extensive involvement in plant construction in that country, JGC has been made aware of Saudi Arabia’s long-held desire to further foster the growth of its own engineering industry. Thus, JGC’s aim of promoting business development in the Middle East and Saudi Arabia’s desire to encourage the further development of its engineering expertise happily coincided to realize the establishment of JGC Gulf International. In addition to the above, JGC has been contributing to the fostering of technical talent in Saudi Arabia through its contributive schemes, such as its program to welcome university students and professionals from oil- and gasproducing countries as trainees, and the operation of a scholarship fund organization ( JGC-S Scholarship Foundation ) to support students from those countries during their advanced studies in Japan. Engineers without Borders 5 Carbon Dioxide Capture and Storage (CCS) y Participants (Japanese side) (Partner country) JGC Corporation Oil & Gas Producing Countries y Outline The world today faces a range of increasingly challenging environmental issues, prominent among which is the need to reduce CO2 emissions. CCS (Carbon dioxide Capture & Storage) is seen as an important option in the portfolio of possible actions to bring this about. One of our recent achievements in CCS can be found in a gas field development project at In Salah in Algeria, known as the first large scale CCS project onshore. JGC provided integrated E&C (Engineering & Construction) services for the whole facility including CO2 capture, compression and transportation. 1.2 million tons of CO2 each year separated from natural gas have been injected into a reservoir at a depth of approximately 2,000 m underground. JGC has been accumulating extensive and appropriate knowledge through making efforts to develop CCS projects using the CDM scheme as well as through providing E&C services. JGC intends to contribute to the development and implementation of CCS projects in oil producing nations. CO2 capture from natural gas and injection In Salah project in Algeria 6 Heavy Crude Oil Upgrading integrated with Steam and Power generation y Parties Concerned ᲢJapanese sideᲣ JGC Corporation ᲢPotential PartnersᲣ Iraq, Kuwait, and other Heavy Oil Producing Countries y Project Summary With increases in the heavy crude oil production rate, technologies which combine heavy crude oil upgrading with the generation of steam and power for the oil field are becoming more attractive. JGC has been proposing upgrading technologies with the concept of “Simple-Clean-Low Emission” for heavy crude oil producing countries. Core technologies consist of a carbon rejection process and boiler turbine generation system utilizing low value residual fuel. With the integration of oil production and upgrading, heavy crude oil projects will be realized in terms of lower capital cost, lower energy consumption, and less by-products such as sulfur and petro cokes, meeting both economic and environmental requirements. Light Crude 䋨SCO䋩 䋲䋱䌾䋳䋲㫦API Heavy Crude 䋸䌾䋱䋷㫦API Oil Field Up-Grading Steam䊶Power䊶CO2 7 Project Development of High Efficiency Power Generation System based on the Gas Turbine Fuel produced from Crude Oil ᲢGEFINERY TM systemᲣ䋪 GEFINERY : Generation䋫Refinery y Parties Concerned ( Japanese side ) JGC Corporation ( Potential Users ) Oil producing countries such as Saudi Arabia, Kuwait and UAE y Project Summary Many power generation projects with fuel oil and crude combustion boilers are planned in the Middle East region in order to meet the robust demand for electricity there . Instead of the conventional boiler turbine power generation system, a newly developed and patented power system based on the GEFINERY TM concept would be proposed by JGC. The GEFINERY TM is a refining process for producing high-quality fuel for advanced gas turbines from residual oil or crude oil. The GEFINERY TM fuel realizes environmentally friendly gas-turbine power generation, with high efficiencies and outstanding economics. 8 Energy-saving and CO2 reduction by Cement Waste Heat Power Plant z Implementing bodies: Japanese side: KAWASAKI Plant Systems, Ltd. Counterpart: Cement companies,Worldwide y Outline: The Cement Plant Waste Heat Power Generation System is a facility to generate power by recovering heat from waste gas discharged from a cement plant with PH and AQC boilers. Expected energy saving is approximately 30 % of the total electric consumption of a cement plant. 9,500kW electricity and 64kt CO2 reduction per year are achieved at a typical 5,000t/day capacity cement plant. In 2006, a Joint Venture with CONCH cement,China was established and it contributed a vast spread of this system in China. This system is expected to achieve worldwide total 1,412MW electricity generation and 9,510kt CO2 reduction per year at the end of 2009. 2* $QKNGT #3% $QKNGT 9 Concept of Ecological Vegetable Factory by Organic Solar Cell x Participant䋺 Mitsubishi Chemical and others x Summary䋺 Ecological Agriculture in any climate 䂓Ecology (Energy saving)䊶䊶Less Electricity by LED, Less Water, Free of Agrichemicals. 䂓Harvest and Eat 䊶䊶Minimizing food mileage. 䂓High productivity䊶䊶Anytime of the year, Multilayer, Speed-up of growth, 12 times harvest a year. 䃨Next target䃨 Ecological and self-standing vegetable factory by developing special organic solar sell and LED. Existing vegetable factory䋺 䊶Fluorescent light 䊶Buying electricity 㪜㪺㫆㫃㫆㪾㫀㪺㪸㫃㩷㪭㪼㪾㪼㫋㪸㪹㫃㪼㩷㪝㪸㪺㫋㫆㫉㫐䋺 䊶㪣㪜㪛㩷㵨 㫃㪼㫊㫊㩷㪼㫃㪼㪺㫋㫉㫀㪺㫀㫋㫐 㪄㪣㪼㫊㫊㩷㪚㪦㪉㩷㪼㫄㫀㫊㫊㫀㫆㫅 㪄㪝㪸㫊㫋㪼㫉㩷㪧㪿㫆㫋㫆㫊㫐㫅㫋㪿㪼㫊㫀㫊 㪹㫐㩷㪼㪽㪽㪼㪺㫋㫀㫍㪼㩷㫎㪸㫍㪼㫃㪼㫅㪾㫋㪿 䊶㪪㪼㫃㪽㪄㫊㫋㪸㫅㪻㫀㫅㪾㩷㪼㫃㪼㪺㫋㫉㫀㪺㫀㫋㫐 㪹㫐㩷㪦㫉㪾㪸㫅㫀㪺㩷㪪㫆㫃㪸㫉㩷㪪㪼㫃㫃 Organic Solar Sell 㪣㫀㪾㪿㫋㩷㫎㪼㫀㪾㪿㫋 Low cost 㪝㫃㪼㫏㫀㪹㫃㪼 colorful 㪪㪼㪼㪄㫋㪿㫉㫆㫌㪾㪿 10 Flue Gas CO2 Recovery Technology of Mitsubishi Heavy Industries, Ltd. (MHI) y Parties Concerned (Potential Users) : - Enhanced Oil Recovery (EOR): Oil producing countries - Carbon Dioxide Capture and Storage (CCS) against Global Warming: All countries y Technology Summery MHI through collaboration with Kansai Electric Power Co., Inc. is at the forefront of providing commercial carbon solutions to the world, through the provision of an advanced, high performance and reliable CO2 capture technology. The high purity CO2 product can then be applied in a range of chemical productions, EOR or CCS, thus helping to reduce atmospheric CO2 emissions which cause global warming and also helping security of crude oil supply. Oil Production 㪚㪦㪉 CO2 Recovery Plant Oil Reservoir Power Plant CO2 Storage CO2 Recovery for EOR Project y Commercial Experiences Currently four (4) CO2 capture plants are in operation and five (5) plants are under construction and MHI has the largest share in the chemical application of CO2 on a global basis. CO2 Capture Plant in Malaysia y Coal Fired Boiler Flue Gas CO2 Recovery Demonstration The Coal fired boiler flue gas CO2 recovery demonstration tests using a 10 T/D Plant has been carried out at the J-Power Matsushima power plant. As the next step a 500 T/D demonstration plant is planned. 11 Energy-Saving Seawater Desalination Project Rabigh IWSPP Project (KSA) Shuqaiq IWPP Project (KSA) 㪩㪸㪹㫀㪾㪿 Joint venture company established by Marubeni, Itochu, JGC & ACWA Power (local IWPP developer) 㪪㪟㪬㪨㪘㪠㪨 y Parties Concerned: Rabigh (Owner) Rabigh Arabian Water & Electricity Company Shuqaiq (Contractor) Mitsubishi Heavy Industries, Ltd. (Owner) Shuqaiq Water & Electricity Company (Contractor) Mitsubishi Heavy Industries, Ltd. y Technical Summary: Joint venture company established by ACWA Power, MC & GIC (Kuwaiti Investment fund) Joint venture company established by Sumitomo Chemical Co. & Saudi Aramco Rabigh (Purpose) Supplying high pure water to the world largest refinery & petrochemical plant owned by PetroRabigh (Required water quality) Chloride ion : less than 5mg/l First time in (Technology adopted) the world 3 stage RO desalination (Production capacity) 192,000m3/d Shuqaiq (Purpose) Supplying drinking water R ABI GH I WS P P R O J ECT R a bigh Ar a b ia n Wa ter a n d Electr icity Com pa n y (Required water quality) Chloride ion : less than 14mg/l Boron : less than 0.5mg/l (Technology adopted) 2 stage RO desalination (Production capacity) 216,000m3/d Desalinated W ater Tank RO Building 150m Micron Cartridge Filter Dual Media Filter 422m 2nd & 3rd Pass RO Bank 1st Pass RO Bank Control & Electrical Building Brine Transfer Tank Reverse Osmosis (RO) desalination method is, as does not require steam in producing pure water, comparing to the conventional evaporating method, energy efficient and environmentally friendly. Also, application of RO method to the sphere of high pure industrial water in Rabigh is the first time in the world event and indeed epoch-making issue. 12 NAS Battery System for Substations in Abu Dhabi Reduces CO2 Emission. y Major Project Members (NAS Battery Supplier) NGK Insulators, Ltd, JAPAN (Owner) ADWEA (Abu Dhabi Water & Electricity Authority), UAE y Energy Storage Capacity䋺䋵䋰䌍䌗 y Project Outline NAS Battery System will be installed to Substations in Abu Dhabi, which has high demand for electricity, so that its further increase of demand can be managed utilizing NAS Battery’s high power density. NAS Battery can store energy at off-peak periods, like during the night, and discharge at peak periods. This load-leveling function helps to improve the efficiency of gas turbines’ operation, and reduce the fuel consumption and CO2 emission. 䋼㪥㪘㪪㩷㪙㪸㫋㫋㪼㫉㫐㩷㪣㫆㪺㪸㫋㫀㫆㫅㫊㩷㪘㪹㫌㩷㪛㪿㪸㪹㫀㩷㪠㫊㫃㪸㫅㪻䋾 Also, NAS Battery can start discharging energy instantly when needed as emergency power supply. It’s now being considered to apply NAS Battery to additional locations in Abu Dhabi mainland and mega solar plants. How NAS Battery at Substations Reduces CO2 Emission CO䋲/Output 䌛wt-CO2/kW䌝 CO2 Gas generation ratio 㪇 㽲 Economical Base Load by GT at rated power 㽳 Power at low demand is charged to NAS 㽴 Power at peak by discharging from NAS 㪉㪇 㪋㪇 㪍㪇 㪏㪇 Generator Output 䌛%䌝 CO2 Gas generation is minimized at constant 100 % output operation 㪈㪇㪇 13 Toward Sustainable Urban Development and Architecture How To Achieve 60% Saving “Cool City” Proposal Project Implementation Outline Japan: Sustainable Urban Development Consortium for Japan and Gulf States Partnership (SDCJ) Represented by Nikken Sekkei United Arab Emirates Nikken has established a consortium with a group of leading Japanese companies in the area of environmental technology as SDCJ (Sustainable Urban Development Consortium for Japan and Gulf States Partnership) and hosted an exclusive symposium and exhibition under the theme of Sustainable Urban Development in 2007. Based on our proposed plan, the City and its architecture are estimated to reduce overall energy consumption by as much as 60%, thanks to cutting-edge technologies that are proven in Japan, economically-based, and available even from tomorrow. Conventional system SDCJ's research project Energy Consumption from Buildings and Transportation 14 Metering System for Energy saving y ParticipantsᲴ ᲢJapan sideᲣ OSAKI ELECTRIC CO.,LTD. ᲢPotential Users Უ Qatar, Saudi Arabia, Thailand, etc. y Summary䋺 “Smart energy” is a solution for the followings. - How should an energy-saving program for CO2 reduction, energy reduction, be implemented in Residential, Commercial and Industrial Clients? - How much are we consuming energy? Although we want to know the situation, the measuring method is not known to us. Is "visualization of the energy data" necessary for reduction of CO2 and energy saving? - Is it troublesome to collect, analyze and store data of various types of energies, such as electricity, gas and water? We need to have equipments that can be used for the management of energy data as well as ones that can be installed easily and economically. 15 SEKISUI GREEN COMMUNITY Project yTo Be undertaken㧦 (JAPAN) By SEKISUI CHEMICAL Ltd For Areas suffering from high stresses related water environment and energy yOutline A conception of environmentally contributing to realize comfortable life with minimum amounts of water and energy 㨪Realization of environmental load reduction by highly industrialized housing and water circulation system 㨪 Aiming for the most efficient utilization of energy and water with combination of : Highly industrialized housing which has high performance in heat insulation and air tightness Water circulation System which enables low leakage rate and recycling of water ᾂώTown ίᾃblocksὸ ὉὉὉ ᾀώHosing ὉὉὉ Realization of Green generation by complete Realization of zerozero-carbon and surplus energy water recycling 䊶Highly industrialized housing 䊶Passive facilities,energy-saving facillities 䊶Pipe systems with low leakage rate 䊶Energy-generating facilities,energy storage 䊶Vacuum sewage system 䊶Energy control system 䊶Drainage treatment and utilization of recycled water ᾁώBlockὉὉὉ(8 households)cluster Realization of energy sharing 䊶Tree-planting(irrigation system 䊶Total control and management Energy storage facilities SEKISUI GREEN COMMUNITY 16 CO2 Emission Reduction by utilization of HIGH Efficiency Heat Pumps y Institutional Organization: Heat Pump & Thermal Storage Center of Japan (HPTCJ) Case1 y SHIMADZU Corporation, KYOTO World Leader in Analytical, Measuring Instruments By Replacement of 20 years old GAS Fired Absorption Chiller into Electric Driven High Efficiency Heat Pump Systems for Air Conditioner, CO2 EMSSION was reduced by 81%! Case2 y OMRON , KYOTO Energy Management System consist of ᲥWireless MONITORING System was Introduced to All Elementary & Jr. High Schools in KYOTO 5% CUT of Power consumption Case3 y Mayekawa, Tokyo, Leading Heat Pump Manufacturer: Vapor Compression Heat Pump Application to Beverage Factory in Vietnam reduced significant volume of CO2 emission. NEDO Project. CDM was utilized for emission trade Similar Effect will be easily Extended to World for All Cases! 17 Ultra High Voltage Transmission Technology Consultation y Organization䋺 䋨Japan䋩TEPCO,CRIEPI䋨Phase1 only䋩 䋨China䋩State Grid Corporation of China y Outline䋺 Technology consultation on the 1MegaVolt AC transmission in China. It will help transmit electricity efficiently. Phase1 (single line) 䋺2006䌾2007ᐕ Phase2 (double line)䋺2007䌾2008ᐕ 18 Technical Cooperation on the Promotion of Energy Efficiency in the Kingdom of Saudi Arabia Scheme Japan side: Saudi side: Japan International Cooperation Agency (JICA) Tokyo Electric Power Company (TEPCO) Institute of Energy Economics, Japan (IEEJ) Ministry of Water and Electricity (MOWE) Background Based on the request from Saudi Arabia to JICA, “The Master Plan Study for Energy Efficiency in the Power Sector in the Kingdom of Saudi Arabia“ was implemented by TEPCO and IEEJ. (February, 2007 to February, 2009) In the study, the Master Plan for Energy Efficiency (EE) up to 2030 in Saudi Arabia was formulated, whose contents are as follows: 9 National EE Basic Policy and Target 9 Sector-wise Action Strategy 9 Concrete EE Measures in consideration of the Saudi situation etc. Saudi Arabia required further step of cooperation for the implementation of the above-mentioned EE policy measures. EC Workshop in Riyadh, gathering Muslim Leaders (Imam) EC Education at Saudi girl’s elementary school in Riyadh Future Technical Cooperation Mr. Kudama of TEPCO was given a shield of thanks from Minister of Water and Electricity, Al-Hussayen. ( Completion Ceremony in Riyadh) JICA Short-Term Expert Scheme (February, 2009 to July, 2010) 9 Two experts will be dispatched from TEPCO 9 Establishment of Energy Manager Appointment Scheme 9 Establishment of Training Program for Energy manager Direct Contract between MOWE and TEPCO (Under negotiation) 9 Implementation of the following measures will be carried out by TEPCO. - Energy Manager Appointment Scheme - EE Labeling Standard Scheme - Award Scheme for EE Good Practices - R&D strategy for EE etc. 19 An Innovative Power Station with Solar Energy and Combined Cycle y Responsible Entities (Japan) Toyota Tsusho Corporation (TTC) (Kuwait) Ministry of Electricity & Water (MEW) (Trough Solar Collector) y Summary TTC and MEW signed a Memorandum of Understanding (MOU) regarding the feasibility study for development of a Integrated Solar Combined Cycle (ISCC) power station at Al Abdaliyah in Kuwait, which comprises of a solar thermal and a conventional gas turbine combined cycle. ISCC, which utilizes un-limited renewable solar energy, is expected to have positive impact in enhancement of efficiency of combustion and reduction of emission of greenhouse gas. (Solar Belt) (Structure of ISCC) 20 Project on Environmentally Friendly Energy Saving System for the Power Generation and Desalination by using Industrial Waste Heat Energy Kuwait Qatar UAE DTEC System (Discharged Thermal Energy Conversion) y Responsible Organization (Japan Side) Xenesys Inc. (Target Organizations) Oil Refinery, Petrochemical Plant, Electricity & Water Company in Kuwait, Qatar and UAE. y Outline This DTEC system uses low-temperature waste heat (50 – 150 é) which had been difficult recovered by using existing technology, for power generation and desalination without additional fuel supply. In the Middle East countries, there are many unused low-temperature waste heat at oil refineries or petrochemical plants. In addition, to meet environmental problems faced, these countries have keen interest to the environmentally friendly energy saving DTEC technology. Currently, F/S level studies have been completed in Kuwait, Qatar and UAE, and continuous reviewing for the implementation of the projects are now ongoing. DTEC Discharged Thermal Energy Conversion 㪮㪸㫊㫋㪼㩷㪟㪼㪸㫋 㩿㪦㫀㫃㩷㪩㪼㪽㫀㫅㪼㫉㫐䊶 㪧㪼㫋㫉㫆㪺㪿㪼㫄㫀㪺㪸㫃㩷㪧㫃㪸㫅㫋㪃㩷㪼㫋㪺䋩 Power Generation Electricity Desalination Reduction of Environmental Load Exhaust Reduction of Operation Cost for Cooling Facility Distilled Water Products of Waste Heat Energy 21 Desert Region Renewable Energy Use Experiment y Organization Responsible for MASDAR䋺 䋨The United Arab Emirates䋩 ABU DHABI FUTURE ENERGY COMPANY PJSC 䋨Japan side䋩 YAZAKI CORPORATION TECHNO YAZAKI Co., Ltd. y Overview The goal of “Zero Carbon City“ under development in Abu Dhabi, UAE, is to establish a symbiotic system in step with the global environment. Taking advantage of solar energy, an abundant and valuable renewable energy source in the Middle Eastern region, the joint Yazaki and MASDAR project is currently conducting experiments and verification of renewable energy systems, in particular, Solar Thermal Cooling Air Conditioning Systems. Y.H. 22