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Premium member Presentation Transcript POLÍTICA AMBIENTAL DEL JAPÓN: POLÍTICA AMBIENTAL DEL JAPÓN Ministro Masaru Watanabe Embajada del Japón en la República Argentina 8 de agosto de 2007Slide2: Estado actual del problema Experiencia del Japón Nueva iniciativa japonesa sobre el calentamiento global Cooperación del Japón con las políticas ambientales de la ArgentinaStructural Changes in Recent Energy Market : Structural Changes in Recent Energy Market The world's energy demand is expected to grow rapidly, mainly in Asia, and increase by 60% in 2030 from the 2002 level (the Asian region accounts for about 46% of overall growth). Changes in and Prospects for World's Energy Demand by Region Source: IEA World Energy Outlook 2004 oil equivalent million t 1Slide4: 1967 38 years ago 1982 23 years ago THE SUMIDA RIVER (TOKYO) IS NOW CLEAN (15 years after) Today 2005 RIVERS 2Slide5: AIR IN JAPAN The City of Yokkaichi is now clean. And now Atmosphere 40 years ago ‘65 ‘70 ‘75 ‘80 ‘85 ‘90 CONCENTRATION OF SULFUR DIOXIDE THERE IS LESS SULFUR DIOXIDE TODAY 3Slide6: Japan has been highly successful in decoupling energy demand from economic growth. Japan’s level of energy efficiency is better than that of other developed countries. - Accordingly, the marginal abatement cost of Japan is higher. - The manufacturing industry has played a key role in the dramatic energy efficiency improvement during the 1970s and 1980s. Energy consumption per GDP in EU15, US and Japan Source: IEA, Energy Balances of OECD Countries Energy consumption per production of the manufacturing industry in Japan Source: IEEJ-EDMC, Handbook of Energy & Economic Statistics in Japan Japan’s Energy Efficiency 4Slide7: Keys for Success: Efficiency Improvement (2) - In the industrial sector, incentives for better competitiveness need to be utilized. They know their own technologies and facilities best. Best practices and best available technologies need to be globally shared. 5Slide8: Keys for Success: Efficiency Improvement (1) -Energy efficiency is a key in striking a balance between the environment and the economy. -The Top Runner Program was introduced in 1998 as energy conservation standards for home/office appliances and fuel efficiency standards for automotives. Example of Top Runner Program Examples of equipment covered (21 items are covered in total.) Fuel Efficiency (km/l) Fuel Efficiency (km/l) Top Runner Program (Stricter energy conservation standards) Conventional energy conservation standard 6Global Solar Cells Production per Region: 7 Global Solar Cells Production per Region Global (1,728MW) Japan (833MW) EU (452MW) Others (289MW) USA (154MW) Region Japan EU USA Others Total 2005 Inter-annual Variation (MW) (%) 231,5 137,6 15,3 148,9 533,3 38,5 43,8 11,0 106,3 44,6 Global Cumulative Installed Solar Power Systems: Global Cumulative Installed Solar Power Systems 8 (MW) Japan (1,132.0MW) Germany (794.0MW) USA (365.2MW) Examples of Solar Cells Installations (parking lot roofs and research institute roofs): Examples of Solar Cells Installations (parking lot roofs and research institute roofs) 9Examples of Solar Cells and Wind Generator (a hut in Mt. Hakuba): Examples of Solar Cells and Wind Generator (a hut in Mt. Hakuba) 10Slide13: 11Slide14: Basic Plan for Establishing a Sound-Material Cycle Society 12Slide15: WHERE DO WE GET GOLD? Do the cell phones we dispose have any gold? We get 200g of gold out of 10,000 cell phones (1 ton). Out ot an equal weight of rocks from mines in Africa, we get only 5g of gold. SO, FACTORIES OBTAIN GOLD FROM USED CELL PHONES. . . . 13Slide16: International Comparison of Resource Productivity in OECD Countries Japan $1,000 / t 《PPP in 2000》 0.0 0.5 1.0 1.5 2.0 2.5 Austria Belgium・Luxembourg Denmark Finland France Germany Greece Ireland Italy Netherl. Portugal Spain Sweden UK USA 1997 (USA:1994) 2000 Source Resource Productivity: (EU)EUROSTAT "Material use in the EU 1980-2000: indicators and analysis",2002. (USA)WRI "Material Flow Accounts: A Tool For Making Environmental Policy",2005 (JAPAN) Trial calculation by Ministry of the Environment from OECD data GDP:OECD "OECD in Figures 2001 Edition." 14Slide17: 【Current Emissions】 1. U.S.A. 22% 2. China 18% 3. Russia 6% 4. Japan 5% 5. India 4% 【Year 2050】 = Developing Countries: about 60% (estimate) Cutting global emissions by half from the current level Curbing to the same level as the capacity of natural sinks 〔Mid-Term Strategy〕 <“3 principles” in designing a concrete framework beyond 2013> 「Innovative Technology Development」 ・Eliminating emissions from coal-fired power generation ・Expanding safe and peaceful use of nuclear power ・Efficient solar power generation ・Promoting the use of next-generation automobiles such as fuel cell vehicles ・Technological innovation in industries such as iron production 「Building a Low Carbon Society」 ・Lifestyles in harmony with nature ・Efficient public transportation system ・Compact urban development ・Demonstrating the sentiment of “mottainai” and the “Japan model” in the world Invitation to “Cool Earth 50” ~ 3 Proposals, 3 Principles ~ <Japan’s Role> ・Oil consumption has been reduced by 8% even though the GDP has doubled over the past 30 years. ・CO2 emission per GDP is the least in the major countries. ・Japan will create a new financial mechanism for assistance to the developing countries which respond to its proposals. ・Japan will expand the endeavor in East Asia for improving energy efficiency to the entire world. Stabilizing the level of greenhouse gas concentrations in the atmosphere To make “Cool Earth” a reality 〔National Campaign〕 <For achieving Japan’s Kyoto Protocol target> Japan-China, Japan-U.S. Summit Hokkaido Toyako Summit (G8) East Asia Summit COP13 Heiligendamm Summit (G8) Apr. Jun. Sep. Nov. Dec. Jul. 2007. 2008. APEC Summit With the motto of “1 person, 1 day, 1 kg”, calling upon the people for efforts and creative ideas. 〔Long-Term Strategy〕 <For halving emissions by 2050> 【Target which we propose setting as a common goal for the world】 (1) All major emitters must participate, thus moving beyond the Kyoto Protocol, leading to global reduction of emissions. (2) The framework must be flexible and diverse, taking into consideration the circumstances of each country. (3) The framework must achieve compatibility between environmental protection and economic growth by utilizing energy conservation and other technologies. 15Slide18: ・ Based on the Law Concerning the Promotion of the Measures to Cope with Global Warming, This system requires large emitters to report their GHG emissions to the government. The government then enables the public to access the gathered data. System Outline Accounting/Announcement Reporting <Accounting by> ・ Business ・ Business Type ・ Prefecture Note: Disclosed when requested Mandatory Greenhouse Gas Accounting and Reporting System Top Runner Program based on the Law concerning the Rational Use of Energy ・ Based on the Law concerning the Rational Use of Energy, energy saving standards for home appliances and automobiles are determined by the Top Runner Method (see Note). the standards are imposed upon manufactures. For the manufacturers that do not meet the standards, measures including advice, announcement, orders, and fines (less than 1 million yen) are taken. Program Outline Note: Top Runner Method This concept calls for products to have better performance than the best product currently on the market. Raising Public Awareness ・ A large scale national campaign for the prevention of global warming started in April 2005 to realize the "6%" reduction in greenhouse gas emissions based on the Kyoto Protocol. The Team Leader is the Prime Minister and the sub-leader is the Minister of the Environment. ・ Individuals are invited to participate in daily global warming prevention activities such as "COOL BIZ," "WARM BIZ," and “Hello! Environmental Technology." Team Minus 6% Examples of Japan’s Policies and Measures Efficiency Improvement of Home Appliances Initiatives taken by Government Agencies (1) National Center: Established by the Minister of the Environment based on the Law Concerning the Promotion of the Measures to Cope with Global Warming with the aim to raise public awareness regarding anti-global warming measures. (2) Prefectural Centers: Established by the Prefectural Governors based on the Law Concerning the Promotion of the Measures to Cope with Global Warming. (3) Advisors: Based on the Law Concerning the Promotion of the Measures to Cope with Global Warming and with the trust of the Prefectural Governor, persons who are knowledgeable of global warming prevention measures and have considerable experience in publicity and educational campaigns educate and advise the public. (National / Prefectural) Japan Center for Climate Change Actions Voluntary Advisors for Global Warming Prevention Activities ・ Based on the Law Concerning the Promotion of the Measures to Cope with Global Warming, the national government, prefectures, and municipalities have taken the initiative and established a plan to reduce greenhouse gas emissions during their clerical works and projects. National/Prefectural/Municipal Action Plans Double Glass Solar Panel ・ Based on the Law Concerning the Promotion of the Measures to Cope with Global Warming, local public authorities have established deliberate and comprehensive measures to reduce greenhouse gas emissions according to the region's natural and social conditions. Global Warming Prevention Measures Regional Promotion Plan CRT-based TV VCR Air conditioner Electric refrigerator (FY1997 – FY2003) (FY1997 – FY2003) (FY1997 – FY2004) 42% 55% (FY1997 – FY2006) (FY1998 – FY2006) 16Slide19: Image of a Low Carbon Society in 2050 A Solar Society A society making high use of the solar energy A society making high use of hydrogen A Hydrogen Society Thin-film silicon solar cells The wide use of polymer electrolyte fuel cell automobiles Efficient hydrogen storage technology The wide use of fuel cell vehicles to realize zero emissions in the automobile sector, which currently accounts for nearly 20% of the global emissions By improving hydrogen storage capacity from the current 3kg to 7kg, the mileage of fuel cell vehicles rises to nearly 700km, the level of the conventional cars. Thin-film solar cells A significant improvement in power generation efficiency from the current 15 – 20% to over 40%, as well as its cost reduction to the level of thermal power generation Low-cost and high-efficiency solar cells by using new materials Flexible solar cells with no restriction of installation places Hydrogen generation from the solar energy by photocatalysts Low-cost rechargeable batteries with increased capacity Fuel cells to satisfy household energy demands Stack Air Hydrogen Electrolytic film Solid Polymer Fuel Cell (Polymer Electrolyte Fuel Cell) Configuration Cost reduction by the use of platinum alternatives Zero Emissions Ultra High Energy Efficiency Technology A society making high use of CO2-free energy resources A society realizing extremely efficient production processes ; having low-carbon-emitting production systems ; and making ultra-high efficient use of energy at homes and offices Iron and steel making technology to partially substitute hydrogen for coke as a reducer Cascade use of waste heat energy, and production technology to fully utilize the by-products of other industries as raw materials Next generation energy-saving devices including high-efficiency semiconductors. Superconducting power transmission without powerloss The IEA estimates, in its 2050 reduction scenario, that the global diffusion of high energy efficiency technology reduces the global emissions by 25%. Innovative zero-emissions coal-fired power generation Next generation light water reactors, small and medium reactors, high temperature gas-cooled reactors, and fast breeder reactor (FBR) cycles A significant increase of zero-emissions nuclear power generation Zero-emissions coal-fired power generation, which currently accounts for nearly 30% of the global emissions Ultra high energy efficiency heat pumps exploiting waste energy 17Slide20: Changes in CO2 Emissions by Sector This adds up to Reduction target for household sector Approx. 38 million tons/year < CO2 reduction volume> Source: “Stress Free Mitigation Global Warming – 10 Concrete Measures at Homes” (Ministry of the Environment), etc. [At work] [If every Japanese citizen refuses one shopping bag per week] → CO2 reduction of approx. 360,000 tons/year nation wide Electricity Consumption to a maximum of 1/5 Replace all filament light bulbs in Japan with fluorescent light bulbs ※ For reducing CO2 nation wide effectively, it is also necessary to take proper actions in the business sector (office buildings, etc.) . What Each One of Us Can Do to Reduce CO2 emissions Achieving the Kyoto Protocol’s 6% Reduction Target CO2 Diet Let’s review our lifestyle and reduce 1 kg of CO2 /person/day = approx. 47 million tons/year 1kg × 128 million people × 365 days > Japan’s household sector recalled a 37.4% increase of CO2 emissions in FY 2005 (compared to 1990 level), totaling 175 million tons, which will need to be reduced 38 million tons by 2010. To achieve this goal, each one of us must change our current lifestyle and increase our efforts to reduce CO2 emissions at home and at work. For example, if all of the following measures be implemented, each household can reduce approx. 569 kg/year (610g/person/day). The government will devote all of its efforts to expand the nation-wide campaign, Team Minus 6%. The success of this campaign totally depends upon the efforts of each citizen. (1) Ratio of the offices that have made efforts since the launch of Cool Biz in FY 2005 →43.2% (2) Estimated CO2 reduction → Approx. 1.14 million tons (June- September) nation wide Japanese government invites public opinions on specific global warming mitigation ideas for homes, offices, and communities, and actively introduces the ideas to the public based on the practicality e.g. with 1℃ higher for air-conditioning and 1℃ lower for heating [Adjusting the temperature] Summer 28℃, Winter 20℃ e.g. without stand-by electricity [Smart electricity use] Unplug appliances [Smart water use] Turn off water properly e.g. 1 minute shorter shower time a day e.g. bringing own shopping bags and choose products with light packaging [Smart shopping and waste disposal] No excessive wrapping; proper trash separation [Eco-friendly driving] Eco-drive e.g. idling stop for 5 minutes per day [Smart products choice] Buy eco-products e.g. with eco-friendly home electric appliances (air conditioners, refrigerators, lights, etc) = Reduction of 74 g/person/day (approx. 69 kg/household/year) = Reduction of 62 g/person/day (approx. 58 kg/household/year) = Reduction of 42 g/person/day (approx. 39 kg/household/year) = Reduction of 64 g/person/day (approx. 60 kg/household/year) = Reduction of 281 g/person/day (approx. 262 kg/household/year) 35g 《Reduction volume/person/day》 ・・・ 1 kg equivalent to approx. 100 soccer balls ! in cubic volume Further reductions could be created by public ideas e.g. with proper trash separation and recycling of waste plastic(= burn less garbage) = Reduction of 52 g/person/day (approx. 48 kg/household/year) 74g 281g 42g 62g 64g ・・・ 104g 132g 45g 52g 35g [Light] [Light bulb-type fluorescent lamp] [Filament light bulb] = Reduction of 45 g/person/day (approx. 42 kg/household/year) = Reduction of 35 g/person/day (approx. 33 kg/household/year) 18 You do not have the permission to view this presentation. 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Medioambiente 3 0 html Connor Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 31 Category: Entertainment License: All Rights Reserved Like it (0) Dislike it (0) Added: October 09, 2007 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript POLÍTICA AMBIENTAL DEL JAPÓN: POLÍTICA AMBIENTAL DEL JAPÓN Ministro Masaru Watanabe Embajada del Japón en la República Argentina 8 de agosto de 2007Slide2: Estado actual del problema Experiencia del Japón Nueva iniciativa japonesa sobre el calentamiento global Cooperación del Japón con las políticas ambientales de la ArgentinaStructural Changes in Recent Energy Market : Structural Changes in Recent Energy Market The world's energy demand is expected to grow rapidly, mainly in Asia, and increase by 60% in 2030 from the 2002 level (the Asian region accounts for about 46% of overall growth). Changes in and Prospects for World's Energy Demand by Region Source: IEA World Energy Outlook 2004 oil equivalent million t 1Slide4: 1967 38 years ago 1982 23 years ago THE SUMIDA RIVER (TOKYO) IS NOW CLEAN (15 years after) Today 2005 RIVERS 2Slide5: AIR IN JAPAN The City of Yokkaichi is now clean. And now Atmosphere 40 years ago ‘65 ‘70 ‘75 ‘80 ‘85 ‘90 CONCENTRATION OF SULFUR DIOXIDE THERE IS LESS SULFUR DIOXIDE TODAY 3Slide6: Japan has been highly successful in decoupling energy demand from economic growth. Japan’s level of energy efficiency is better than that of other developed countries. - Accordingly, the marginal abatement cost of Japan is higher. - The manufacturing industry has played a key role in the dramatic energy efficiency improvement during the 1970s and 1980s. Energy consumption per GDP in EU15, US and Japan Source: IEA, Energy Balances of OECD Countries Energy consumption per production of the manufacturing industry in Japan Source: IEEJ-EDMC, Handbook of Energy & Economic Statistics in Japan Japan’s Energy Efficiency 4Slide7: Keys for Success: Efficiency Improvement (2) - In the industrial sector, incentives for better competitiveness need to be utilized. They know their own technologies and facilities best. Best practices and best available technologies need to be globally shared. 5Slide8: Keys for Success: Efficiency Improvement (1) -Energy efficiency is a key in striking a balance between the environment and the economy. -The Top Runner Program was introduced in 1998 as energy conservation standards for home/office appliances and fuel efficiency standards for automotives. Example of Top Runner Program Examples of equipment covered (21 items are covered in total.) Fuel Efficiency (km/l) Fuel Efficiency (km/l) Top Runner Program (Stricter energy conservation standards) Conventional energy conservation standard 6Global Solar Cells Production per Region: 7 Global Solar Cells Production per Region Global (1,728MW) Japan (833MW) EU (452MW) Others (289MW) USA (154MW) Region Japan EU USA Others Total 2005 Inter-annual Variation (MW) (%) 231,5 137,6 15,3 148,9 533,3 38,5 43,8 11,0 106,3 44,6 Global Cumulative Installed Solar Power Systems: Global Cumulative Installed Solar Power Systems 8 (MW) Japan (1,132.0MW) Germany (794.0MW) USA (365.2MW) Examples of Solar Cells Installations (parking lot roofs and research institute roofs): Examples of Solar Cells Installations (parking lot roofs and research institute roofs) 9Examples of Solar Cells and Wind Generator (a hut in Mt. Hakuba): Examples of Solar Cells and Wind Generator (a hut in Mt. Hakuba) 10Slide13: 11Slide14: Basic Plan for Establishing a Sound-Material Cycle Society 12Slide15: WHERE DO WE GET GOLD? Do the cell phones we dispose have any gold? We get 200g of gold out of 10,000 cell phones (1 ton). Out ot an equal weight of rocks from mines in Africa, we get only 5g of gold. SO, FACTORIES OBTAIN GOLD FROM USED CELL PHONES. . . . 13Slide16: International Comparison of Resource Productivity in OECD Countries Japan $1,000 / t 《PPP in 2000》 0.0 0.5 1.0 1.5 2.0 2.5 Austria Belgium・Luxembourg Denmark Finland France Germany Greece Ireland Italy Netherl. Portugal Spain Sweden UK USA 1997 (USA:1994) 2000 Source Resource Productivity: (EU)EUROSTAT "Material use in the EU 1980-2000: indicators and analysis",2002. (USA)WRI "Material Flow Accounts: A Tool For Making Environmental Policy",2005 (JAPAN) Trial calculation by Ministry of the Environment from OECD data GDP:OECD "OECD in Figures 2001 Edition." 14Slide17: 【Current Emissions】 1. U.S.A. 22% 2. China 18% 3. Russia 6% 4. Japan 5% 5. India 4% 【Year 2050】 = Developing Countries: about 60% (estimate) Cutting global emissions by half from the current level Curbing to the same level as the capacity of natural sinks 〔Mid-Term Strategy〕 <“3 principles” in designing a concrete framework beyond 2013> 「Innovative Technology Development」 ・Eliminating emissions from coal-fired power generation ・Expanding safe and peaceful use of nuclear power ・Efficient solar power generation ・Promoting the use of next-generation automobiles such as fuel cell vehicles ・Technological innovation in industries such as iron production 「Building a Low Carbon Society」 ・Lifestyles in harmony with nature ・Efficient public transportation system ・Compact urban development ・Demonstrating the sentiment of “mottainai” and the “Japan model” in the world Invitation to “Cool Earth 50” ~ 3 Proposals, 3 Principles ~ <Japan’s Role> ・Oil consumption has been reduced by 8% even though the GDP has doubled over the past 30 years. ・CO2 emission per GDP is the least in the major countries. ・Japan will create a new financial mechanism for assistance to the developing countries which respond to its proposals. ・Japan will expand the endeavor in East Asia for improving energy efficiency to the entire world. Stabilizing the level of greenhouse gas concentrations in the atmosphere To make “Cool Earth” a reality 〔National Campaign〕 <For achieving Japan’s Kyoto Protocol target> Japan-China, Japan-U.S. Summit Hokkaido Toyako Summit (G8) East Asia Summit COP13 Heiligendamm Summit (G8) Apr. Jun. Sep. Nov. Dec. Jul. 2007. 2008. APEC Summit With the motto of “1 person, 1 day, 1 kg”, calling upon the people for efforts and creative ideas. 〔Long-Term Strategy〕 <For halving emissions by 2050> 【Target which we propose setting as a common goal for the world】 (1) All major emitters must participate, thus moving beyond the Kyoto Protocol, leading to global reduction of emissions. (2) The framework must be flexible and diverse, taking into consideration the circumstances of each country. (3) The framework must achieve compatibility between environmental protection and economic growth by utilizing energy conservation and other technologies. 15Slide18: ・ Based on the Law Concerning the Promotion of the Measures to Cope with Global Warming, This system requires large emitters to report their GHG emissions to the government. The government then enables the public to access the gathered data. System Outline Accounting/Announcement Reporting <Accounting by> ・ Business ・ Business Type ・ Prefecture Note: Disclosed when requested Mandatory Greenhouse Gas Accounting and Reporting System Top Runner Program based on the Law concerning the Rational Use of Energy ・ Based on the Law concerning the Rational Use of Energy, energy saving standards for home appliances and automobiles are determined by the Top Runner Method (see Note). the standards are imposed upon manufactures. For the manufacturers that do not meet the standards, measures including advice, announcement, orders, and fines (less than 1 million yen) are taken. Program Outline Note: Top Runner Method This concept calls for products to have better performance than the best product currently on the market. Raising Public Awareness ・ A large scale national campaign for the prevention of global warming started in April 2005 to realize the "6%" reduction in greenhouse gas emissions based on the Kyoto Protocol. The Team Leader is the Prime Minister and the sub-leader is the Minister of the Environment. ・ Individuals are invited to participate in daily global warming prevention activities such as "COOL BIZ," "WARM BIZ," and “Hello! Environmental Technology." Team Minus 6% Examples of Japan’s Policies and Measures Efficiency Improvement of Home Appliances Initiatives taken by Government Agencies (1) National Center: Established by the Minister of the Environment based on the Law Concerning the Promotion of the Measures to Cope with Global Warming with the aim to raise public awareness regarding anti-global warming measures. (2) Prefectural Centers: Established by the Prefectural Governors based on the Law Concerning the Promotion of the Measures to Cope with Global Warming. (3) Advisors: Based on the Law Concerning the Promotion of the Measures to Cope with Global Warming and with the trust of the Prefectural Governor, persons who are knowledgeable of global warming prevention measures and have considerable experience in publicity and educational campaigns educate and advise the public. (National / Prefectural) Japan Center for Climate Change Actions Voluntary Advisors for Global Warming Prevention Activities ・ Based on the Law Concerning the Promotion of the Measures to Cope with Global Warming, the national government, prefectures, and municipalities have taken the initiative and established a plan to reduce greenhouse gas emissions during their clerical works and projects. National/Prefectural/Municipal Action Plans Double Glass Solar Panel ・ Based on the Law Concerning the Promotion of the Measures to Cope with Global Warming, local public authorities have established deliberate and comprehensive measures to reduce greenhouse gas emissions according to the region's natural and social conditions. Global Warming Prevention Measures Regional Promotion Plan CRT-based TV VCR Air conditioner Electric refrigerator (FY1997 – FY2003) (FY1997 – FY2003) (FY1997 – FY2004) 42% 55% (FY1997 – FY2006) (FY1998 – FY2006) 16Slide19: Image of a Low Carbon Society in 2050 A Solar Society A society making high use of the solar energy A society making high use of hydrogen A Hydrogen Society Thin-film silicon solar cells The wide use of polymer electrolyte fuel cell automobiles Efficient hydrogen storage technology The wide use of fuel cell vehicles to realize zero emissions in the automobile sector, which currently accounts for nearly 20% of the global emissions By improving hydrogen storage capacity from the current 3kg to 7kg, the mileage of fuel cell vehicles rises to nearly 700km, the level of the conventional cars. Thin-film solar cells A significant improvement in power generation efficiency from the current 15 – 20% to over 40%, as well as its cost reduction to the level of thermal power generation Low-cost and high-efficiency solar cells by using new materials Flexible solar cells with no restriction of installation places Hydrogen generation from the solar energy by photocatalysts Low-cost rechargeable batteries with increased capacity Fuel cells to satisfy household energy demands Stack Air Hydrogen Electrolytic film Solid Polymer Fuel Cell (Polymer Electrolyte Fuel Cell) Configuration Cost reduction by the use of platinum alternatives Zero Emissions Ultra High Energy Efficiency Technology A society making high use of CO2-free energy resources A society realizing extremely efficient production processes ; having low-carbon-emitting production systems ; and making ultra-high efficient use of energy at homes and offices Iron and steel making technology to partially substitute hydrogen for coke as a reducer Cascade use of waste heat energy, and production technology to fully utilize the by-products of other industries as raw materials Next generation energy-saving devices including high-efficiency semiconductors. Superconducting power transmission without powerloss The IEA estimates, in its 2050 reduction scenario, that the global diffusion of high energy efficiency technology reduces the global emissions by 25%. Innovative zero-emissions coal-fired power generation Next generation light water reactors, small and medium reactors, high temperature gas-cooled reactors, and fast breeder reactor (FBR) cycles A significant increase of zero-emissions nuclear power generation Zero-emissions coal-fired power generation, which currently accounts for nearly 30% of the global emissions Ultra high energy efficiency heat pumps exploiting waste energy 17Slide20: Changes in CO2 Emissions by Sector This adds up to Reduction target for household sector Approx. 38 million tons/year < CO2 reduction volume> Source: “Stress Free Mitigation Global Warming – 10 Concrete Measures at Homes” (Ministry of the Environment), etc. [At work] [If every Japanese citizen refuses one shopping bag per week] → CO2 reduction of approx. 360,000 tons/year nation wide Electricity Consumption to a maximum of 1/5 Replace all filament light bulbs in Japan with fluorescent light bulbs ※ For reducing CO2 nation wide effectively, it is also necessary to take proper actions in the business sector (office buildings, etc.) . What Each One of Us Can Do to Reduce CO2 emissions Achieving the Kyoto Protocol’s 6% Reduction Target CO2 Diet Let’s review our lifestyle and reduce 1 kg of CO2 /person/day = approx. 47 million tons/year 1kg × 128 million people × 365 days > Japan’s household sector recalled a 37.4% increase of CO2 emissions in FY 2005 (compared to 1990 level), totaling 175 million tons, which will need to be reduced 38 million tons by 2010. To achieve this goal, each one of us must change our current lifestyle and increase our efforts to reduce CO2 emissions at home and at work. For example, if all of the following measures be implemented, each household can reduce approx. 569 kg/year (610g/person/day). The government will devote all of its efforts to expand the nation-wide campaign, Team Minus 6%. The success of this campaign totally depends upon the efforts of each citizen. (1) Ratio of the offices that have made efforts since the launch of Cool Biz in FY 2005 →43.2% (2) Estimated CO2 reduction → Approx. 1.14 million tons (June- September) nation wide Japanese government invites public opinions on specific global warming mitigation ideas for homes, offices, and communities, and actively introduces the ideas to the public based on the practicality e.g. with 1℃ higher for air-conditioning and 1℃ lower for heating [Adjusting the temperature] Summer 28℃, Winter 20℃ e.g. without stand-by electricity [Smart electricity use] Unplug appliances [Smart water use] Turn off water properly e.g. 1 minute shorter shower time a day e.g. bringing own shopping bags and choose products with light packaging [Smart shopping and waste disposal] No excessive wrapping; proper trash separation [Eco-friendly driving] Eco-drive e.g. idling stop for 5 minutes per day [Smart products choice] Buy eco-products e.g. with eco-friendly home electric appliances (air conditioners, refrigerators, lights, etc) = Reduction of 74 g/person/day (approx. 69 kg/household/year) = Reduction of 62 g/person/day (approx. 58 kg/household/year) = Reduction of 42 g/person/day (approx. 39 kg/household/year) = Reduction of 64 g/person/day (approx. 60 kg/household/year) = Reduction of 281 g/person/day (approx. 262 kg/household/year) 35g 《Reduction volume/person/day》 ・・・ 1 kg equivalent to approx. 100 soccer balls ! in cubic volume Further reductions could be created by public ideas e.g. with proper trash separation and recycling of waste plastic(= burn less garbage) = Reduction of 52 g/person/day (approx. 48 kg/household/year) 74g 281g 42g 62g 64g ・・・ 104g 132g 45g 52g 35g [Light] [Light bulb-type fluorescent lamp] [Filament light bulb] = Reduction of 45 g/person/day (approx. 42 kg/household/year) = Reduction of 35 g/person/day (approx. 33 kg/household/year) 18