Nuclear Energy in Korea

1. Nuclear Energy in Korea Ministry of Foreign Affairs and Trade Ambassador for Energy and Resources KIM Eun-seok

2. Contents • PartⅠ. Nuclear Energy Overview • Current Status of Nuclear Energy • WhyNuclear Energy? • PartⅡ. Nuclear Energy in Korea • Development of Nuclear Energy in Korea • Nuclear Policy • Nuclear Industries in Korea 2

3. PartⅠ. Nuclear Energy Overview

4. 1 Current Status of Global Nuclear Power 2 Why Nuclear Energy?

5. 1. Current Status of Nuclear Power 441 Units in Operation (30 Countries) 441 Units in Operation (30 Countries) Source: World Nuclear Association (Nov 2010) 5

6. 1. Current Status of Nuclear Power Nuclear Power Plants by Country (2010.11) 6 Source: World Nuclear Association (Nov 2010)

7. 2. Why Nuclear Energy? Uranium: 240 yrsvsFossil Fuel: 40-130 yrs 7

8. 2. Why Nuclear Energy? Environmentally Friendly: : Less CO2 Emission GHGs emitted by power generation CO2 Emission (g/kWh) Coal Oil Gas NE Without NPP … - Global CO2 emission would be 10% larger than the current level - In Korea, 24%↑ 8

9. 2. Why Nuclear Energy? Comparative Advantage: Cost, Land & Efficiency ◊Production Cost: 3~25 times lower than conventional energy ※ Unit: KRW/KWH, Source:Korean Electric Power Corporation ◊Land Site: 5~500 times less 165,000,000 m2 33,000,000 m2 330,000 m2 Landsite to produce 1 GWh electricity 9

10. 2. Why Nuclear Energy? Energy Security Uranium: Widely spread vs. Fossil fuel: dependent on ME & Russia uranium coal oil 10

11. PartⅡ. Nuclear Energy in Korea

12. 1 Development of Nuclear Energy in Korea 2 Nuclear Policy 3 Nuclear Industries

13. 1. Development of Nuclear Energy in Korea The 1st Research Reactor in Korea, TRIGA Mark II The 1st president of Korea in the ground breaking ceremony (1959.7.14) Dawning of Nuclear Age in Korea 1950-1953 : Korean War 1958: Nuclear Eng. Dept of Hanyang Univ. 1959: Nuclear Eng. Dept of Seoul National Univ. 1959: Korea Atomic Energy Research Institute 13

14. Kori - the site of the 1st Korean NPP : before (top) and now (bottom). 1st unit of Nuclear power plant started its construction in 1972 Turn Key basis 587MWe Commercial operation in 1978 Life extension after 30 years operation (2007.12) 1. Development of NuclearEnergy in Korea Generating Nuclear Electricity in Korea 14

15. ` In operation 20 units (17,716 MW) ` Under construction 8 units (9,600 MW) ` Under planning 10 units (15,400 MW) Nuclear Power Plants 1. Development of Nuclear Energy in Korea 6th Largest Nuclear Power Capacity in the World Ulchin 8 units Wolseong 6 units Radioactive Waste Disposal Facility (Under construction) Kori 8 units Yong-gwang 6 units Goal by 2030 (Basic Plan, 2008.8) 26%  41% of Capacity 36%  59% of Generation In Operation Under Construction 15

16. 1. Development of Nuclear Energy in Korea Installed Capacity & Electricity Generation ) 16 16

17. 1. Development of Nuclear Energy in Korea NPP Development 17

18. 1. Development of Nuclear Energy in Korea South Korean Nuclear Power Units Source: Nuclear News. World List of Nuclear Power Plants, March 2009 18

19. 1st Phase : Gen II 2nd Phase : Gen III 3rd Phase : Gen III+ 4th Phase : Gen IV 1980s 2000s 2010s 2020s 2030s 1970s 1990s 1. Development of Nuclear Energy in Korea Korean Nuclear Reactor Systems Localization Revolutionary - SFR : U recycle and waste minimization - VHTR : Hydrogen production Evolutionary PWRs - APR1400 - SMART(330MWt) Standardization (KSNP) Optimization (OPR1000) 1,000 MWe Turn-key base 600 MWe 19

20. Peaceful uses of nuclear energy in all nuclear fields 4 Principles on the Peaceful Uses of Nuclear Energy (2004) Basic Direction Promoting Peaceful Uses of Nuclear Energy Securing Nuclear Safety Enhancing Nuclear Transparency No intention to develop and possess nuclear weapons Adherence to the principle of nuclear transparency Compliance with the international norms of nuclear nonproliferation Expansion of the peaceful uses of nuclear energy 2. Nuclear Policy National Nuclear Policy 20

21. Nuclear Related Government Structure 2. Nuclear Policy Nuclear Related Government Structure President Prime Minister Atomic Energy Commission Ministry of Foreign Affairs and Trade (MOFAT) Ministry of Education, Science & Technology (MEST) Nuclear Safety Commission Ministry of Knowledge & Economy (MKE) Energy & Resources Policy Office Atomic Energy Bureau Energy Team Korea Atomic Energy Research Institute (KAERI) Disarmament and Nonproliferation Division Korea Institute of Nuclear Safety (KINS) KEPCO, KHNP 21

22. Ministry of Education, Science and Technology (MEST) Nuclear Industries (KHNP, etc) KINS (Korea Institute of Nuclear Safety) 2. Nuclear Policy Working Mechanism of Safety Regulation Apply for Permit or License Request Technical Review Issue Permit or License Submit Technical Evaluation Results Technical Discussion & Inspection Inspection & Correction Findings & Improvement 22

23. 2. Nuclear Policy Energy Vision 2030 An Energy-Conscious Society Increased Clean Energy Supply Oil Dependence: 43.4% 33% Renewable Energy Use:2.4% 11% Energy Intensity:0.341 0.185 Improving Efficiency Increasing Use of Renewable Energy Expanding and Promoting Nuclear Power Generation Establishing an Effective Energy Market with Cost-Based Pricing Green-Driven Growth Coping with Climate Change Elevating Korea’s Green Technologies to the Advanced countries’ Level Actively Joining International Efforts for GHG Reduction Facilitating Carbon Market Firm Foundation for Green Energy Tech Green Transformation in Major Industries Supporting Businesses for GHG Cuts 23 23

24. 2. Nuclear Policy Korea’s Energy Mix 2007 → 2030 Renewable & etc 2.5% Renewable & etc 11.5% Coal 15.7% Nuclear 14.9% Coal 25.3% LNG 13.8% Nuclear 27.8% Oil 33.0% Oil 43.4% LNG 12.0% 2007 : 241millionTOE 2030 : 300millionTOE Expansion of clean and self sufficient energy Reduction of fossil fuel 83% 27.8% Nuclear 61% 43.4 Oil 14.9% 33.0 New & renewable 11% 25.3 Coal 2.4% 15.7 13.8 LNG 12.0 ’07 ’30 ’07 ’30 24

25. 2. Nuclear Policy Expected Change by 2030 • Expanding and Promoting Nuclear Power Generation • 8 units under construction, 10 more units by 2030 • Installed capacity : 24.4% in 2007 →41% by 2030 • Electricity generation : 36% in 2007 → 60% by 2030 25

26. 3. Nuclear Industries World’s Best Operation Performance KHNP Unplanned Capability Loss Factor Capacity Factor 26

27. 3. Nuclear Industries Cost Competitiveness of APR1400 $3,582 $3,050 $2,900 $2,900 $2,800 KHNP $2,050 Unit Construction Cost ($/kWe) USA RUS JPN FRA CAN KOR AP1000 VVER1000 ABWR APR1400 EPR ACR1000 Overnight EPC Cost as of 2008 ※ Source: World Nuclear News (World Nuclear Association, 2008) 6.86¢ 4.65¢ 3.93¢ 3.71¢ 3.03¢ 3.17¢ USA RUS JPN FRA CAN KOR Unit Generation Cost (cents/kWh) AP1000 VVER1000 ABWR APR1400 EPR ACR1000 ※ Source: Projected Costs of Generating Electricity (OECD/NEA, 2005) 27

28. 3. Nuclear Industries Korean Nuclear Industry Regulatory Body LeadingCompany Ministry of Education, Science & Technology • Brand Power • Leading Role • Financing Capability • Global Experience Nuclear Safety Research and Development Licensing Inspection Operation & Management Construction Design & Engineering Nuclear Fuel Maintenance & Services Equipment Manufacturing 30years of repetitive construction fostered competitive domestic suppliers in the entire nuclear cycle 28

29. Feb., 1995 3. Nuclear Industries HANARO Reactor High-flux Advanced Neutron Application ReactOr Multi-purpose Research Reactor 29

30. Innovative Design • Integrated Primary System PWR (No LBLOCA) • Physically Inherent Safety Features • Advanced Man-Machine Interface System SMART (330MWt) Loop Type PWR 3. Nuclear Industries SMART Characteristics PZR RCP X SGC X X X X Reactor Core X Enhanced Reactor Safety by 10~100 times Water and electricity for 100,000 people 30