Kernreactoren – Een overzicht van Generatie III kernreactoren
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KERNREACTOREN – EEN OVERZICHT VAN GENERATIE III+ KERNREACTOREN Frank Bertels – Tractebel Engineering (GDF Suez) KVAB debatavond: Nieuwe generatie kernreactoren 13 november 2014 CHOOSE EXPERTS, FIND PARTNERS PUBLIC KVAB - Overzicht GENIII+ reactoren PUBLIC TABLE OF CONTENT • Introduction – Generation I – Generation II • Generation III/III+ – Origin/definition – EPR – AP1000 – Other Designs 13/11/2014 2 KVAB - Overzicht GENIII+ reactoren 13/11/2014 PUBLIC Source: Generation IV International Forum 3 KVAB - Overzicht GENIII+ reactoren 13/11/2014 PUBLIC INTRODUCTION Generation I – Early prototypes of power reactors – Shippingport, Fermi I, Magnox, Dresden I, … – BR-3 Mol • prototype BR-3 PWR • First PWR built in Europe (1962) • 11 MWe – Mostly decommissioned Source: SCK-CEN 4 KVAB - Overzicht GENIII+ reactoren 13/11/2014 PUBLIC Source: Generation IV Forum 5 KVAB - Overzicht GENIII+ reactoren 13/11/2014 PUBLIC INTRODUCTION Generation II – PWR (incl. VVER) • Westinghouse • Babcock and Wilcox • Combustion Engineering • Framatome • Siemens • Gidropress • … – BWR – CANDU –… Nuclear generating capacity by reactor type, 2013 Source: Word Nuclear Association 6 KVAB - Overzicht GENIII+ reactoren PUBLIC INTRODUCTION The different technologies Pressurized water reactors (PWR) (including VVER) – The predominant technology – Uses water as moderator and coolant – Water is under pressure (155 bar) – Heat is transferred to the secondary side via a steam generator 13/11/2014 7 KVAB - Overzicht GENIII+ reactoren PUBLIC INTRODUCTION The different technologies Boiling water reactors – Uses water as moderator and coolant – Water is boiling – Turbine hall is controlled area 13/11/2014 8 KVAB - Overzicht GENIII+ reactoren PUBLIC GENERATION II+ Belgian NPPs – Doel & Tihange – Westinghouse & Framatome design – Original Advanced Features: • Double wall containment • Liner on primary containment • Bunkered safeguard systems • Air plane crash • Explosion Pressure Wave 9 KVAB - Overzicht GENIII+ reactoren 13/11/2014 PUBLIC Source: Generation IV Forum 10 KVAB - Overzicht GENIII+ reactoren 13/11/2014 PUBLIC GENERATION III • Europe - Technical guidelines for the next generation - Groupe Permanent chargé des réacteurs nucléaires – Significant improvement safety – Severe accident – Focus on Probability of Releases – Design based on Probabilistic Safety Assessment analysis – Evolutionary designs • USA - Single Combined Construction and Operating License (COL) – Improve Licensing Process Efficiency, Predictability – Reduces Financial Risk – COL Granted Prior To Beginning Of Construction – Cf. Generic Design Assessment process in UK • WENRA safety objectives for new NPP designs • EUR - European Utility Requirements (US – Utility Requirements Document) 11 KVAB - Overzicht GENIII+ reactoren 13/11/2014 PUBLIC 13/11/2014 EUR DOCUMENT AND REACTOR ASSESSMENTS Volume 1 Volume 2 Main policies & objectives Generic nuclear island requirements revision A: 03/1994 revision B: 11/1995 revision C: 04/2001 revision D: 10/2012 Volume 3 Applications of EUR to specific designs BWR 90 subset: 06/1999 EPR subset: 12/1999 EPP subset: 12/1999 ABWR subset: 12/2001 SWR 1000 subset: 02/2002 AES92 subset: 06/2006 AP1000 subset: 06/2006 Standard EPR subset: 06/2009 EU-APWR subset: 2014 Volume 4 Generic conventional island requirements revision A: 11/1996 revision B: 03/2000 revision C: 10/2007 revision D: 10/2012 Source: EUR Public web site 12 KVAB - Overzicht GENIII+ reactoren 13/11/2014 PUBLIC 13 13/11/2014 EUR / URD UTILITY REQUIREMENTS AND REACTOR DEVELOPMENT Reactors with Active Safeguards URD (US) EUR (EU) Reactors with Passive Safeguards System 80+ VVER AES92 EPR APWR ABWR SWR1000 AP1000 PWR ESBWR BWR KVAB - Overzicht GENIII+ reactoren 13/11/2014 PUBLIC 14 13/11/2014 EUR / URD UTILITY REQUIREMENTS AND REACTOR DEVELOPMENT Reactors with Active Safeguards URD (US) EUR (EU) Reactors with Passive Safeguards System 80+ VVER AES92 EPR APWR ABWR SWR1000 AP1000 PWR ESBWR BWR KVAB - Overzicht GENIII+ reactoren PUBLIC GENERATION III • Features of Generation III reactors – Standardization/harmonization of NPP designs – Supplier of Nuclear Steam Supply System Supplier of Nuclear Island – Design Basis Conditions completed by Design Extension Conditions • Multiple failure accidents • Station Blackout – Loss Of Ultimate Heat Sink – Anticipated Transient without SCRAM • Containment by-pass accidents • Severe accidents – Probability reduction of early and late releases • Air Plane Crash / Earthquake • Consideration of the human factors – Reduced O&M costs and capital costs, – Higher fuel burn-up, higher thermal efficiency and higher availability, – Better flexibility and longer operating life. 13/11/2014 15 KVAB - Overzicht GENIII+ reactoren 13/11/2014 PUBLIC EPR - AREVA Source: Nuclear Street web site 16 KVAB - Overzicht GENIII+ reactoren 13/11/2014 PUBLIC EPR - What’s the EPR? • The European Pressurized Reactor is a product of Areva NP (merge of Framatome ANP and the nuclear activities of Siemens). • It is a 1650 MWe 4-loops PWR • EPR design built on experience feedback to improve safety and performance (evolutionary concept). • New features – Accessibility of the reactor building – 4 safety trains concept – Corium retention area – “Core Catcher” – Standstill Seal System – Improved operating capability. 17 KVAB - Overzicht GENIII+ reactoren 13/11/2014 PUBLIC EPR • Quadruple Redundant Safeguard Systems – 4 x 100% for main safeguards • Each safety trains is independent and located within a physically separate building. • Shield wall – protection against external hazards Shield Wall Source: AREVA 18 KVAB - Overzicht GENIII+ reactoren PUBLIC Source: AREVA 19 KVAB - Overzicht GENIII+ reactoren PUBLIC Source: AREVA 20 KVAB - Overzicht GENIII+ reactoren 13/11/2014 21 PUBLIC EPR – Severe Accident Management If molten core escaped from the reactor vessel, it would be collected, retained and cooled in a special designed area – the Core Catcher. Sacrific ial Material Protective Layer IR Spreading Compartment Sacrific ial Material -7.80m Basemat Cooling Melt Dis charge Channel Protective Layer Melt Plug Source: Wikipedia KVAB - Overzicht GENIII+ reactoren 13/11/2014 PUBLIC EPR Construction techniques – Rebar works on site – New concrete pouring methods Source: Nuclear News 22 KVAB - Overzicht GENIII+ reactoren 13/11/2014 PUBLIC EPR – Taishan-1 Source: Nuclear Bussiness Forum 23 KVAB - Overzicht GENIII+ reactoren 13/11/2014 PUBLIC AP1000/EPP - Westinghouse Source: Westinghouse 24 KVAB - Overzicht GENIII+ reactoren 13/11/2014 PUBLIC AP1000 • Approximate electric capacity 1154 MWe (2 loops) • Design features – Uses the forces of nature and simplicity of design to enhance plant safety and operations and reduce construction costs – Passive systems are used for core cooling, containment isolation and containment cooling – Main Control Room Emergency Habitability System Source: Wikipedia 25 KVAB - Overzicht GENIII+ reactoren 13/11/2014 PUBLIC AP1000 - Westinghouse • Passive Core Cooling System – Passive Residual Heat Removal – Passive Safety Injection • Gravity drain core make-up tanks • N2 pressurized accumulators • Gravity drain RWST • Gravity drain containment sump • Automatic depressurization valves – Passive Containment pH Control – Passive Spent Fuel Pool Cooling Source: Westinghouse 26 KVAB - Overzicht GENIII+ reactoren 13/11/2014 PUBLIC AP1000 – Severe Accident Management • In-Vessel Retention – If core melt occurs, corium is relocated to the reactor vessel bottom hemisphere – Reactor vessel wall is cooled by passive reactor cavity flooding Source: Nuclear Street 27 KVAB - Overzicht GENIII+ reactoren 13/11/2014 PUBLIC AP1000 – Design Simplification • Simplified Design – Passive Safeguard Systems in Containment – No active Safeguard Systems – Compact Building Layout – Reduction of (Safety Grade) Equipment – Reduction of Maintenance Source: Westinghouse 28 KVAB - Overzicht GENIII+ reactoren 13/11/2014 29 PUBLIC AP1000 Parallel Tasks on Modular AP1000 Shorten Construction Schedule Source: Daily Tech KVAB - Overzicht GENIII+ reactoren 13/11/2014 PUBLIC AP1000 Source: Giaoduc web site 30 KVAB - Overzicht GENIII+ reactoren 13/11/2014 PUBLIC The AP1000 is Smaller and Simpler than GenII Plants Sizewell B AP1000 74147A Source: Daily Tech 31 KVAB - Overzicht GENIII+ reactoren 13/11/2014 PUBLIC AP1000 – SANMEN-1 Source: WNN 32 KVAB - Overzicht GENIII+ reactoren 13/11/2014 PUBLIC 21-10-2010 OVERVIEW OF GEN III+ - PWR Vendor Reactor Size MWe WestinghouseToshiba (USA) (AP600) AP1000 (600) 1150 Areva NP (FranceGermany) EPR US-EPR 1600-1650 Finland: Olkiluoto-3 France: Flamanville-3 China: Taishan-1, 2 AREVAMitsubishi (France-Japan) ATMEA 1 1100 Turkey: Sinop (4) KEPCO(South Korea) APR-1400 1400 S-Korea: Shin-Kori-3, 4 UAE: Barakah-1, 2 VVER-1000 (AES-92) VVER-1200 (AES-2006) 1000 1200 Russia: Leningrad, Novovoronezh China: Tianwan-1, 2, 3, 4 AtomStroyExport (Russia) Construction China: Sanmen-1, 2 / Haiyang-1, 2 USA: Summer-2, 3 / Vogtle-3, 4 UK: Moorside 1, 2, 3 33 KVAB - Overzicht GENIII+ reactoren 13/11/2014 PUBLIC OVERVIEW OF GEN III+ - BWR Vendor Reactor Size MWe Under Construction GE-Hitachi (USA-Japan) ESBWR 1550 USA: Fermi / North Anna GE-Hitachi (USA-Japan) Toshiba (Japan) ABWR 1300 Japan: Kashiwazaki Kariwa-6, 7 / Shimane-3 / Ohma Taiwan: Lungmen-1, 2 34 KVAB - Overzicht GENIII+ reactoren 13/11/2014 PUBLIC Generation III+ - Other Designs • ATMEA 1 – Approximate electric capacity 1000 – 1150 MWe (3 loops) – Designed by AREVA - Mitsubishi – 3-train safety system with advanced accumulators – 4th partial safety train division for on-power maintenance – EPR severe accident features – Use of prefabricated modules – Accessible reactor building in operation Source: WNN 35 KVAB - Overzicht GENIII+ reactoren 13/11/2014 PUBLIC Generation III+ - Other Designs • VVER-1200/V-491 AES2006 – Approximate electric capacity 1160 –1200 MWe (4 loops) – Designed by Rosatom (ASE) – System functioning is based on “passive”principles. System design ensures completely independent operation without operator’s intervention for at least 24 hours Source: Rosatom 36 KVAB - Overzicht GENIII+ reactoren 13/11/2014 PUBLIC Generation III+ - Other Designs • APR 1400 – Approximate electric capacity 1400 MWe (2 loops) – Designed by Dosam (KHNP) – 2-loop arrangement, with two very large Steam Generators loops – (2 hot-legs, 4 cold-legs, 2 SGs) – Passive design features – Prefabrication and modularization Source: Atom Info 37 KVAB - Overzicht GENIII+ reactoren 13/11/2014 PUBLIC Generation III+ - Other Designs • ESBWR – Economic Simplified Boiling water reactor (BWR reactor) – Approximate electric capacity 1550 MWe (4 pipes for steam + 2 for feed water – no pumps) – Uses Passive systems – Designed by General Electric and Hitachi Source: NRC 38 KVAB - Overzicht GENIII+ reactoren 13/11/2014 PUBLIC Generation III+ - Other Designs • ACR-1000 – Advanced CANDU Reactor – evolutionary class pressure tube – reactor, light-water-cooled, heavy-water-moderated – Approximate electric capacity 1200 MWe (4 loops) – Designed by Atomic Energy of Canada Limited (AECL) Source: Canteach 39 KVAB - Overzicht GENIII+ reactoren 13/11/2014 PUBLIC Generation III+ - Other Designs • APWR – Approximate electric capacity 1538 MWe (EU-APWR and USAPWR 1700 MWe) (4 loops) – Developed by Mitsubishi Heavy Industries and Westinghouse – Derived from the Japan PWRs. – The improvements in passive system have led to the elimination of the Safety Injection system, an active system. Source: WNN 40 KVAB - Overzicht GENIII+ reactoren 13/11/2014 PUBLIC Generation III+ - Other Designs • ABWR – Advanced boiling water reactor ABWR – Approximate electric capacity 1350 MWe – Designed by General Electric (cooperation Hitachi and Toshiba) Source: NRC 41 KVAB - Overzicht GENIII+ reactoren 13/11/2014 PUBLIC Source: Generation IV Forum 42
