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Energy Security & Sustainability for 21st Century : Post Fukushima Energy Strategy

Energy Security & Sustainability for 21st Century : Post Fukushima Energy Strategy. 2012/10/14 Paris Nobuo TANAKA Former Executive Director of the IEA Global Associate of Energy Security and Sustainability, IEEJ.

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Energy Security & Sustainability for 21st Century : Post Fukushima Energy Strategy

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  1. Energy Security & Sustainability for 21st Century: Post Fukushima Energy Strategy 2012/10/14 Paris Nobuo TANAKA Former Executive Director of the IEA Global Associate of Energy Security and Sustainability, IEEJ

  2. Energy Demand grows in Asia. Energy Security is the issue for Asian countries. IEA WEO 2011 Growth in primary energy demand Global energy demand increases by one-third from 2010 to 2035, with China, India and other Asia accounting for two thirds of the growth 4 500 China Mtoe 4 000 India 3 500 Other developing Asia 3 000 Russia Middle East 2 500 Rest of world 2 000 OECD 1 500 1 000 500 0 2010 2015 2020 2025 2030 2035 2

  3. New Policies Scenario assumes Natural gas & renewables become increasingly important, but Nuclear also grows by 70%. IEA WEO 2011 World primary energy demand Renewables & natural gas collectively meet almost two-thirds of incremental energy demand in 2010-2035 5 000 Mtoe Additional to 2035 4 000 2010 3 000 2 000 1 000 0 Oil Coal Gas Renewables Nuclear 3

  4. History of Nuclear Reactors 4

  5. Nuclear Power in the New Policies Scenario IEA WEO 2011 5

  6. Low Nuclear Case IEA WEO 2011 6

  7. Low Nuclear Case World Energy Outlook 2011 If no new nuclear plants be built in OECD countries, Nuclear power will decline to 7% of total power generation in 2035.

  8. Power generation by fuel in the New Policies Scenarioand Low Nuclear Case The biggest chunk of the lost nuclear generation is replaced by power generation from gas and coal, leading to a 6% or 0.9 GT increase in CO2 emissions in the power sector Less nuclear means more of everything else IEA WEO 2011 14 000 2009 TWh 12 000 2035: New Policies Scenario 10 000 2035: Low Nuclear Case 8 000 6 000 4 000 2 000 0 Nuclear Coal Gas Renewables

  9. Additional $90 billion is needed to import gas and coal.

  10. Second thoughts on nuclear would have far-reaching consequences IEA WEO 2011 • “Low Nuclear Case” examines impact of nuclear component of future energy supply being cut in half • Gives a boost to renewables, but increases import bills, reduces diversity & makes it harder to combat climate change • By 2035, compared with the New Policies Scenario: • coal demand increases by twice Australia’s steam coal exports • natural gas demand increases by two-thirds Russia’s natural gas net exports • Renewables power increases by 550TWh = 5 times of RE in Germany • power- sector CO2 emissions increase by 6.2% • Biggest implications for countries with limited energy resources that planned to rely on nuclear power 10

  11. Japan in the Low Nuclear Case Nuclear power capacity in the Low Nuclear Case in Japan Nuclear generates just 18% of Japan’s electricity in 2030 in the Low Nuclear Case (compared with 30% in the New Policies Scenario) as a result of retirements & no new construction. With 21% by renewables, 61% should come from fossil fuel thermal power. IEA WEO 2011 Nuclear share in generation mix 53% 27% 30% 18%

  12. IEA NPS ( LNC ) 30% ( 18%) | 18% (21%) | 52% (61%) |

  13. Innovative Energy & Environment Strategy Decision by the Energy & Environment Council , GOJ September 14th, 2012 • Mobilize all possible resources to phase out Nuclear Power during 2030s. • Strict 40 years life of reactors.Restart reactors with approval by the new NRC. No new construction. • Green Energy Revolution • 10% Power saving and 19% energy efficiency by 2030. • Triple Renewables by 2030. ( x8 excluding hydro) • R&D for new generation vehicles, Hydrogen system, CCS. • Expand LNG gas power, Combined Heat & Power. • Reform of power market. • Flexible review of the decision.

  14. Germany may need much more Gas to phase out Nuclear by 2022 twh Germany needs to import 16 BCM of gas to achieve electricity mix with 10% demand reduction, no nuclear, 35% renewables and CO2 at the target level 14

  15. Power Grid Connection in Europe PhysicalenergyflowsbetweenEuropean countries, 2008 (GWh) Source: ENTSO-E 15

  16. Power grid in Japan Generating company Hokkaido Hydro Gas Coal Nuclear In-house generation Oil Other Power utility company Tohoku 60 hz <------- Chugoku Hokuriku Kansai Tokyo Kyushu 29GW Shikoku 12GW --- 50 hz Chubu 40GW Okinawa 2GW Source:Agency for Natural Resources and Energy, The Federation of Electric Power Companies of Japan,Electric Power System Council of Japan, The International Energy Agency

  17. Not only Feed-in-tariffs but Grid integration ! Snapshot of present penetration potentials “Harnessing Variable Renewables” by IEA 17

  18. Lessons of the Fukushima • Lessons to be Shared • Think about the unthinkable; Tsunami and Station Black Out. Large scale Blackout. Change total mind set for “Safety”. • Prepare for the severe accidents by defense in deep, common cause failure & compound disasters. • Clarify why it happened only to Fukushima Daiichi and NOT to Fukushima Daini, Onagawa nor Tokai daini. • Safety Principles • Fukushima accident was caused by human error and should have been avoided. (Mr. Hatamura, Parliament Investigation Commission report) • International Cooperation : A nuclear accident anywhere is an accident everywhere. • Independent Regulatory authority ; Transparency and Trust, “Back Fitting” of regulation • Secured supply of Electricity • Power station location • Strengthened interconnection of grid lines • Once disaster has happened, Recovery from disaster is at least as important as preparing for it. • FEMA like organization and training of the nuclear emergency staff including the self defense force ; integration of safety and security. • Move beyond the Light Water Reactor Paradigm.

  19. Petroleum security is particularly the issue for Asia in the 21st Century. IEA WEO 2011 US oil imports drop due to rising domestic output & improved transport efficiency: North American Energy Independence is coming! ( WEO 2012 ) 19

  20. Iran Crisis and the Hormuz Strait 85% of Japanese oil import 20% of Japanese LNG import But if no nuclear reactors are running,,,,,,? 85% of Japanese oil import 20% of Japanese LNG import 17 mbd of petroleum (20% of global demand ) 82 million tons of LNG pa (30% of global demand) 20

  21. IEA Petroleum Strategic Stock can relieve 2mbd disruption for 24 months. 1974 disruption was 4.3mbd.1979 was 5.6mbd.Hormuz blockage is13 mbd.

  22. Compounding Crisis may hit Japan • Blockage of the Strait of Hormuz • Oil Price may double to $160 / barrel • Japan’s current account surplus ( 9 trillion yen in 2011 ) may turn to deficit of 6 trillion yen. • Without further restarting of nuclear power plants, deficits may reach 12 trillion yen. • Confidence on Japan’s public finance may be lost. • Current Account surplus is the basis for confidence • Persisting Deficit may lead to capital flight from Japan • Power crisis enhances flight of manufacturing industries • Loss of Confidence in JGB and Yen.

  23. The Golden Age for Natural Gas ? IEA WEO 2011 Largest natural gas producers in 2035 Unconventional natural gas supplies 40% of the 1.7 tcm increase in global supply,but best practices are essential to successfully address environmental challenges Conventional Russia United States Unconventional China Iran Qatar Canada Algeria Australia India Norway 0 200 400 600 800 1 000 bcm 23

  24. The Golden Age for Natural Gas? China’s Gas demand grows fast by 5 times and its Import by 20 times by 2035 IEA WEO 2011 China’s demand is 97 BCM in 2009, same as Germany, In 2035 it grows to 502 BCM same as Europe as a whole in 2009 24

  25. Overseas Investments by Chinese National Oil Companies: Assessing the Drivers and Impacts

  26. International Gas Prices IEA Mid Term Gas Market Review 2012 26

  27. Russia’s focus will move to the East IEA WEO 2011 Russian revenue from fossil fuel exports An increasing share of Russian exports go eastwards to Asia,providing Russia with diversity of markets and revenues 2010 2035 $255 billion $420 billion Other Other 17% 21% China2% European Union European Union China Other Europe 48% 20% 61% 16% Other Europe 15% 27

  28. Gas Supply Security and Russian Gas Pipelines IEA WEO 2011

  29. Low Nuclear and 450 case To achieve lower nuclear and 450 ppm together, we need CCS! 29

  30. What is Energy Security in the 21st Century?

  31. Diversity : Energy mix as Energy Security Mix Self sufficiency =inland production / tpes (2010 estimates) • Nuclear is an important option for countries with limited indigenous energy resources .

  32. North American Gas Infrastructure Mid-Term Oil & Gas Market 2010, IEA

  33. Gas Pipelines in Europe

  34. Gas Pipelines in Japan IEA Japan review 2008

  35. North East Asia Gas & Pipeline Forum

  36. ASEAN Gas Pipeline 36

  37. Existing and proposed ASEAN Power Grid Interconnections

  38. Connecting MENA and Europe: " Desertec" as “Energy for Peace" Source: DESRETEC Foundation

  39. Energy for Peace in Asia ? A New Vision Presentation by Mr. Masayoshi SON

  40. Hydrogen Communitywith MCH ・CO2Recycle ( CO2 + H2→CO+H2O) Energy Sector Renewable Energy (Global) Industrial Sector City Gas ・H2 Mixture Petroleum Chemical Power Gen. ・Desulfurization ・Cracking ・Feedstock Green Hydrogen (Renewable Sources) Power Storage ・Heat Recycle MCH ・Elec. Stabilizer ・Stand-by for Emergency Steel ・Pure H2/ Mixed Fuel ・Fuel Cell Clean Hydrogen (Hydrocarbon Sources) ・H2 Reduction Logistics Sector MCH Port Facility ・FC/Engines ・Petro/Chem. By-product ・SRM with EOR/CCS ・Gasification Hydrogen Supply (Dehydrogenation) Logistics Tanker / Ferry MCH ・FCforklift ・H2mixed Fuel GHP MCH MCH ・Fuel Cell Ship ・Hydrogen mixed fuel Engine MCH MCH Truck MCH Office & Commercial Sector Hydrogen / H2-CNG Fueling Station Strategic Energy Reserve (Large volume) Train ・FCV ・H2-CNG Engine Bus ・Heat Recycle ・Fuel Cell Train ・H2 mixed fuel Engine MCH Office & Commercial Building Residential Sector Solar ・FCV ・H2-CNGEngine MCH Wind MCH House / Condominium MCH MCH Renewable Energy (Local) Distributed Power Gen. Distributed Power Gen. DHC Car MCH ・Boiler / Chiller (Pure H2/mixed) ・Fuel Cells ・H2 mixed fuel Engine MCH ・FCV ・CNGmixed engine ・Cogeneration ・Backup Power ・Energy Storage Hydrogen Heat Electricity Large volume Hydrogen transportation & storage technology will be essential to build ‘Hydrogen Community’. ‘Hydrogen Community’ realizes Low EmissionCarbon Recycling Society, with empowered resistance against disasters. New path toward the Hydrogen Society will enhance innovation and create New Industries. (Note)MCH : MethylcyclohexaneFC : Fuel CellFCV : Fuel Cell VehicleGHP : Gas Heat Pump DHC : District Heating and Cooling

  41. THE POTENTIAL OF DECENTRALISED SYSTEMES “ Yes in My Front Yard ” Source: Cities, Towns and Renewable Energy, IEA (2009)

  42. $39 Trillion and more Investment is needed for energy Infrastructure. Who should Invest for the long term Energy Security? IEA WEO 2011

  43. One cannot enhance energy security by risking someone else‘s. -Lesson of the Quake and Tsunami : Think about the unthinkable. -Energy Security for the 21st Century must be Comprehensive Electricity Supply Security under sustainability constraints. -EU Model of Collective Energy Security be applied to the growing Asia. Develop Regional Power Grid interconnection & Gas Pipelinesincluding Russia. -Innovation in Power supply: Efficiency, Decentralized Renewables, EVs, Smart Grids, Storage, etc. -Developgas resources and infrastructure. Diversify supply and demand. Russia remains as a key player. -For coal to remain the backbone of power supply, CCSreadiness & highly efficient power plants are needed. -Nuclear Power will continue to play a major role in the world. Japan’s role after Fukushima is to share the lessons learned for safer Nuclear Power deployment in Asia and elsewhere. Develop safer and more proliferation-free reactor models, e.g. 4G or Modular. -New technologies help; hydrogen economy, Methane-hydrate , Super-conductivity grid.

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