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SVBR-100: GENERATION IV SMALL MODULAR MULTIPURPOSE NUCLEAR REACTOR

SVBR-100: GENERATION IV SMALL MODULAR MULTIPURPOSE NUCLEAR REACTOR. 2014. Russia's first innovative project in NPP development conducted in the format of public-private partnership. Basic Element - diversified industrial group made up of over 100 Russian and international companies.

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SVBR-100: GENERATION IV SMALL MODULAR MULTIPURPOSE NUCLEAR REACTOR

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  1. SVBR-100: GENERATION IV SMALL MODULAR MULTIPURPOSENUCLEAR REACTOR 2014

  2. Russia's first innovative project in NPP development conducted in the format of public-private partnership Basic Element - diversified industrial group made up of over 100 Russian and international companies Еstablished in 2009 as a public – private partnership. State Atomic Energy Corporation Rosatom 50% 50% The content of this presentation is for discussion purposes only. It shall not be considered as an offer and doesn’t lead to any obligations to AKME-engineering. 2

  3. Multi-purpose application FLEXIBLE capacity for Local and remote areas: Gradual build-up desalination Construction ofsmallandmediumdual application complexes (power and heat) in local and remote areas with poor energy infrastructure Coastaldesalinationnuclearpowercomplexcomprisingtwotypesofonshoredesalinationplants (multi-layereddistillationandreverseosmosis). Distillated water: 200 000 – 350 000 m3/day Multipurpose Industrial application renovation Renovationallows to minimize capitalcostsper unit twofoldascomparedwiththeconstructionofnewcapacities. *) The results of the complex study of technical feasibility and economic viability of the renovation of the 2nd, 3rd and 4th units of SVBR-100 based Novovoronezhskaya NPP Steam: 580 tons/hour, saturated steam, p=6.7Mpa, T~282.9°C The content of this presentation is for discussion purposes only. It shall not be considered as an offer and doesn’t lead to any obligations to AKME-engineering.

  4. SMR market forecasted to reach 35 GW by 2030 Definition of priority markets SMRs market capacity, 2020-2030 (BASE CASE) [GW] HIGH. Russia Belarus 11,7 7,4 4,4 2,3 2,0 1,8 1,3 1,2 0,7 Ukraine Venezuela Czech Republic India Turkey China Bulgaria Bangladesh Iran China India Russia Brazil Poland Indonesia S. Africa Kazakhstan Turkey Argentina Kazakhstan Oman Azerbaijan Brazil Egypt Romania Poland MEDIAN Maroc Nigeria Malaysia Taiwan AVAILABILITY FOR RUSSIAN NUCLEAR POWER Tunis Southern Africa Columbia Indonesia Algeria Thailand UAE Kuwait Saudi Arabia Pakistan UK Mexico Canada Consensus forecast of SMR market volume till 2030 (including co-generationand desalination) is up to 35GWof installed capacity or up to 200 US dollars USA Japan France Southern Korea Priority markets (size of circle corresponds with market size) LOW. MEDIAN LOW. ABILITY FOR SMR APPLICATION HIGH. Sources: Platts, The World Bank, IAEA, WNA, expert assessments, Roland Berger Strategy Consultants, for more details please consider appendix The content of this presentation is for discussion purposes only. It shall not be considered as an offer and doesn’t lead to any obligations to AKME-engineering. 4

  5. four Svbr competitive advantages Advanced safety Sustainable development 1 3 Combination of active and passive safety systems Chemically inert both to water and air lead-bismuth coolant Integral reactor layout Near-atmospheric pressure inside primary circuit Accident even with a loss of containment could not lead to radioactive emissions into the atmosphere Can operate in closed nuclear fuel cycle mode reducing consumption of uranium ore and nuclear waste output. Flexible approach 4 Small dimensions - transportable by rail way, road or waterway Modular design 100MWe *n – NPPs customized to local needs Possibility of deployment near residential area (less than 1 km) Fewer requirements to local energy infrastructure Broad application 2 Electricity supply Heat supply Desalinated water Steam supply for industrial needs The content of this presentation is for discussion purposes only. It shall not be considered as an offer and doesn’t lead to any obligations to AKME-engineering.

  6. technical specifications The content of this presentation is for discussion purposes only. It shall not be considered as an offer and doesn’t lead to any obligations to AKME-engineering.

  7. Safety features: advantages of Pb-Bi Coolant Coolant potential energy strongly influences the number and complexity of the safety systems and can display its impact in case of accidents Water Sodium Pb / Pb-Bi Parameters /Coolant type P = 16 Mpa Т = 300 ºС Temperature Т = 500 ºС Т = 490 ºС Maximal potential energy, GJ/m3, incl.: ~ 21,9 ~ 10 ~ 1,09 ~ 0,90/~ 0,15 (PWR) ~ 0,6/None Thermal energy / incl. compression potential energy ~ 1,09/None With zirconium ~11,4 With water 5,1 With air 9,3 Potential Chemical energy of interaction None Potential chemical energy of interaction of released hydrogen with air ~ 4,3 None ~ 9,6 The content of this presentation is for discussion purposes only. It shall not be considered as an offer and doesn’t lead to any obligations to AKME-engineering.

  8. Safety features and international nuclear regulation compliance of SVBR - 100 SVBR – 100 – is an “after” Chernobyl & TMI & Fukushima NPPs designed up to “the lessons learned” TMI Chernobyl Fukushima SVBR SVBR design features Coolant evaporation tb = 1670ºC Not possible Heat removal by natural circulation of LBC with heat transfer to tank water + 72 hours of non-interference Inability to remove Fuel afterheat Not possible Growth of temperature in the reactor core Not possible Fuel rods zirconium casing interaction with water No zirconium (steel casing) Not possible Not possible in significant quantities Hydrogen extraction & explosion No zirconium (steel casing) The content of this presentation is for discussion purposes only. It shall not be considered as an offer and doesn’t lead to any obligations to AKME-engineering.

  9. Project status • Project documentation finished • Operating license obtained • Physical start • Establishment of AKME-engineering • Public hearings passed successfully • Obtained the status of a nuclear market participant • License for construction of the pilot unit obtained • First concrete 2013 2014 2015 2016 2017 2018 2019 2009 2010 2011 2012 • Selection and contracting of suppliers of major systems and equipment executed • License for the placement obtained • Construction and installation work • Power start • Obtained the status of the operating organization • Site identified for the construction of the pilot unit Concept design Design and engineering Construction Operation and Commercialization The content of this presentation is for discussion purposes only. It shall not be considered as an offer and doesn’t lead to any obligations to AKME-engineering.

  10. NPP project withsvbr-100 pilot unit constriction Prototype nuclear plant is to be constructed in Dimitrovgrad, Ulyanovsk region Dimitrovgrad FIRST OF A KIND SVBR NPP parameters: Events behind: • 1 unit • Co-generation mode • Installed electric capacity: 100 MW(e) • Heat capacity: 100 Gcal/h • Efficiency factor: ~36% • Working time: 50 years • ICUF*: ~90% • Positive resolution of public hearing • Authorized site (signed rental agreement) • Collaboration agreementwith regional government The content of this presentation is for discussion purposes only. It shall not be considered as an offer and doesn’t lead to any obligations to AKME-engineering.

  11. Leading Russian enterprises are involved in the project Russian Research and Design Institute for Power Technologies (VNIPIET) TVEL • Fuel supplier • General designer of the pilot unit Established: 1933 Established: 1996 (managing company) Experimental and Design Organization Gidropress Central Design Institute of Machinery (CKBM) • Chief Designer • Designer of reactor (integrator) • Constructor of the main circulation pump and refueling machine Established: 1946 Established: 1945 Institute for Physics and Power Engineering named after A. I. Leypunsky Scientific Research Institute of Atomic Reactors (NIIAR) • Scientific director; • Designer of the reactor core cooling technologies and systems • Experimental study of the core elements and structural materials Established: 1954 Established: 1956 The content of this presentation is for discussion purposes only. It shall not be considered as an offer and doesn’t lead to any obligations to AKME-engineering.

  12. AKME-engineering Board of directors Vyacheslav Pershukov Oleg Deripaska Deputy CEO for Innovation Management Rosatom Chairman of the Board of Directors President of En+ Group Dzhomart Aliev Vladimir Petrochenko Director General Rusatom Overseas Director General AKME-engineering Alexander Tuzov Deputy Director of the Block for Innovation Management Rosatom GulzhanMoldazhanova CEO of Basic Element The content of this presentation is for discussion purposes only. It shall not be considered as an offer and doesn’t lead to any obligations to AKME-engineering.

  13. Contact information JSC «AKME-engineering» Tel. +7 (495) 221-5533, Fax +7 (495) 221-5532 Pyatniskaya str. 13 bld.1, 115035 MoscowRussia info@svbr.org / www.akmeengineering.com The content of this presentation is for discussion purposes only. It shall not be considered as an offer and doesn’t lead to any obligations to AKME-engineering.

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