Conceptual framework of a strategy for the development of nuclear power in Russia to 2100

被引:0
作者
E. O. Adamov
A. V. Dzhalavyan
A. V. Lopatkin
N. A. Molokanov
E. V. Muravyov
V. V. Orlov
S. G. Kal’akin
V. I. Rachkov
V. M. Troyanov
E. N. Avrorin
V. B. Ivanov
R. M. Aleksakhin
机构
[1] Dollezhal Research and Development Institute of Power Engineering (NIKIET),
[2] Science and Innovation Company,undefined
[3] State Science Center of the Russian Federation – Leipunskii Institute for Physics and Power Engineering (GNTs RF – FEI),undefined
[4] State Science Center – Research Institute for Atomic Reactors (GNTs NIIAR),undefined
[5] Russian Federal Nuclear Center – Zababakhin All-Russia Research Institute of Technical Physics (RFYaTs – VNIITF),undefined
[6] Bochvar All-Russia Research Institute for Inorganic Materials (VNIINM),undefined
[7] All-Russia Research Institute of Agricultural Radiology and Agroecology (VNIISKhRAE),undefined
来源
Atomic Energy | 2012年 / 112卷
关键词
Uranium; Plutonium; Fast Reactor; Thermal Reactor; Spend Fuel;
D O I
暂无
中图分类号
学科分类号
摘要
The conceptual principles of a long-term strategy for the development of large-scale nuclear power in Russia based on fast reactors with natural safety and a closed NFC, conservation of the natural radioactivity balance for buried wastes, prevention of proliferation of weapons-grade materials, drawing uranium resources fully into energy production and ensuring that the nuclear method of electricity production is competitive are examined. The principal problems of nuclear power are characterized and ways to solve them are proposed. Mathematical models are used to examine scenarios for the development of nuclear power and the transition to a closed NFC.
引用
收藏
页码:391 / 403
页数:12
相关论文
共 37 条
[31]   Assessing the Role and Viability of Nuclear Power in Ukraine's Post-War Energy Strategy [J].
Osadcha, Natalia ;
Zaverbnyj, Andrij .
EUROPEAN JOURNAL OF SUSTAINABLE DEVELOPMENT, 2024, 13 (03) :469-488
[32]   Framework development for a SAVY-4000 nuclear material storage container structural integrity surveillance tool [J].
Hafen, Joseph ;
Teague, Jon ;
Fleming, Brandon ;
Ruthstrom, Justin ;
Moore, Murray ;
Lukow, Steven ;
Suazo, Julio ;
Grow, David ;
Choudhury, Samrat ;
Gigax, Jonathan .
NUCLEAR ENGINEERING AND DESIGN, 2025, 439
[33]   Nuclear power development in China and uranium demand forecast: Based on analysis of global current situation [J].
Yan, Qiang ;
Wang, Anjian ;
Wang, Gaoshang ;
Yu, Wenjia ;
Chen, Qishen .
PROGRESS IN NUCLEAR ENERGY, 2011, 53 (06) :742-747
[34]   A study of China's uranium resources security issues: Based on analysis of China's nuclear power development trend [J].
Xing, Wanli ;
Wang, Anjian ;
Yan, Qiang ;
Chen, Shan .
ANNALS OF NUCLEAR ENERGY, 2017, 110 :1156-1164
[35]   Fast reactors as a basis for large-scale nuclear power - (Concerning the article "Prospects for the development of fast breeder reactors" by FM Mitenkov) [J].
Orlov, VV .
ATOMIC ENERGY, 2003, 94 (03) :200-209
[36]   Development of a high-resolution alpha-particle imaging system for detection of plutonium particles from the Fukushima Daiichi nuclear power plant [J].
Yamamoto, Seiichi ;
Tomita, Hideki .
RADIATION MEASUREMENTS, 2018, 115 :13-19
[37]   Fast Reactors as a Basis for Large-Scale Nuclear Power (Concerning the article “Prospects for the development of fast breeder reactors” by F. M. Mitenkov) [J].
V. V. Orlov .
Atomic Energy, 2003, 94 :200-209
1234