EDP Sciences 1776764153 20260421 fre

laboutique.edpsciences.fr-001353 03 01 01 001353 03 9782759806690 15 9782759806690 00 BA 02 16 mm 01 24 mm 08 500 gr 10 01 02 Génie Atomique 01 01 Nuclear Reactor Systems A technical, historical and dynamic approach 1 A01 01 A1498 Bertrand Barré Barré, Bertrand Bertrand Barré Graduated from École des Mines de Nancy, retired from CEA and AREVA, Bertrand Barré teaches Nuclear Engineering at Institut National des Sciences et Techniques Nucléaires, and Sciences-Po. He was Nuclear Attaché in Washington DC, Director of Engineering at Technicatome, Head of the Nuclear Reactors Directorate at CEA, R&D Vice-president at COGEMA, Scientific Advisor to AREVA, and Member of many Scientific Committees in France and abroad. 2 A01 01 A1499 Pascal Anzieu Anzieu, Pascal Pascal Anzieu Graduated from the École Centrale de Paris, France, Pascal Anzieu made his career at CEA on nuclear reactors design and safety. He led the Superphenix research program from 1994 to 1998 and then conducted research programs on future nuclear systems: sodium, gas, molten salt reactors, accelerator-driven systems, etc. He currently teaches at the National Institute for Nuclear Science and Technology and several engineering schools and universities. 3 A01 01 A1500 Richarch Lenain Lenain, Richarch Richarch Lenain Doctor of Orsay University 1982, currently coordinator of a CEA PWR expert group, Richard Lenain teaches Reactor Physics and Nuclear Engineering at INSTN, École Polytechnique and École Centrale de Paris. He was formerly head of Applied Mathematics and Reactor Studies Section in CEA/Saclay. 4 A01 01 A1501 Jean-Baptiste Thomas Thomas, Jean-Baptiste Jean-Baptiste Thomas Graduated from École Centrale de Paris with a postgraduate degree in Theoretical Physics (atomic and nuclear) at Orsay University, currently scientific advisor to the Nuclear Energy Director in CEA, Jean-Baptiste Thomas teaches Reactor Physics and Nuclear Engineering as a professor at INSTN (in charge of the Nuclear Reactor Systems course created by Bertrand Barré). He was formerly Director for ADS studies in CEA and Director for Simulation and Experimental Facilities in the Nuclear Energy Directorate. 1 01 eng 01 eng 00 432 03 01 24 Izibook:Subject Nucléaire 24 Izibook:SubjectAndCategoryAndTags |Nucléaire| 20 nuclear;reactor;strengths and weaknesses of the different reactor systems;fuel cycle sustainability;post-Fukushima safety 10 2011 SCI051000 29 3079 01 620 01 621.48 05 06 05 00 The evolution of nuclear reactors since the 1942 Fermi experiment can be described along the lines of natural history, with an initial flourish of uninhibited creativity followed by a severe selection process leading to a handful of surviving species, with light water reactors occupying most of the biotope today.The is book combines four approaches:<ul><li>A descriptive one. This gives an overview of the main strengths and weaknesses of the different reactor systems.</li><li>A historical approach, from the 1940’s to nowadays, with an extrapolation to the near future. The LWR dominance being firmly established, what is the next step?</li><li>An axiomatic approach. Starting with a set of long term criteria concerning the fuel cycle sustainability, a conceptual solution is established, and then a family of reactor systems is selected for development and qualifycation.</li><li>A dynamic approach. In the early 2000s, the prevailing image combined a “nuclear renaissance”, a strong limitation of the greenhouse gases concentration and a dynamic growth of the world economy. Updating the strategy in the wake of the last decade events requires a sharper understanding of the driving forces as well as of the influence of the post-Fukushima safety framework on the design constraints.</li></ul>All the books of the “Génie Atomique” series have adopted an instructional approach. Initially intended for INSTN’s students, they can be greatly helpful to physicists and engineers involved in the development or operational aspects of nuclear power. 03 00 The evolution of nuclear reactors since the 1942 Fermi experiment can be described along the lines of natural history, with an initial flourish of uninhibited creativity followed by a severe selection process leading to a handful of surviving species, with light water reactors occupying most of the biotope today.The is book combines four approaches:<ul><li>A descriptive one. This gives an overview of the main strengths and weaknesses of the different reactor systems.</li><li>A historical approach, from the 1940’s to nowadays, with an extrapolation to the near future. The LWR dominance being firmly established, what is the next step?</li><li>An axiomatic approach. Starting with a set of long term criteria concerning the fuel cycle sustainability, a conceptual solution is established, and then a family of reactor systems is selected for development and qualifycation.</li><li>A dynamic approach. In the early 2000s, the prevailing image combined a “nuclear renaissance”, a strong limitation of the greenhouse gases concentration and a dynamic growth of the world economy. Updating the strategy in the wake of the last decade events requires a sharper understanding of the driving forces as well as of the influence of the post-Fukushima safety framework on the design constraints.</li></ul>All the books of the “Génie Atomique” series have adopted an instructional approach. Initially intended for INSTN’s students, they can be greatly helpful to physicists and engineers involved in the development or operational aspects of nuclear power. 02 00 The evolution of nuclear reactors since the 1942 Fermi experiment can be described along the lines of natural history, with an initial flourish of uninhibited creativity followed by a severe selection process leading to a handful of surviving species, with light water reactors occupying most of the biotope today. The is book combines four ap... 21 00 06 01 https://laboutique.edpsciences.fr/produit/845/9782759819850/nuclear-reactor-systems 01 00 03 02 https://laboutique.edpsciences.fr/system/product_pictures/data/009/982/093/original/9782759806690-Reactor-systems_couv-sofedis.jpg 17 14 20240913T172520+0200 15 00 04 02 01 E107 04 9782759806690-Reactor-systems_sommaire.pdf 05 0.07 06 45ca0efa6fb94af5436797a64350f005 https://laboutique.edpsciences.fr/extract/963?filename=9782759806690-Reactor-systems_sommaire.pdf&md5sum=45ca0efa6fb94af5436797a64350f005&size=75265&title=Sommaire+de+l%27ouvrage 17 14 20161005T140841+0200 16 00 04 01 https://laboutique.edpsciences.fr/extract/963/preview 01 P1 EDP Sciences 01 01 P1 EDP Sciences 17 avenue du Hoggar - PA de Courtaboeuf - 91944 Les Ulis cedex A http://publications.edpsciences.org/ 04 01 00 20160223 19 00 20160223 2026 06 3052868830012 01 WORLD 27 03 9782759819850 15 9782759819850 WORLD 08 EDP Sciences 04 01 00 20160223 03 01 D1 EDP Sciences 21 04 05 01 02 1 00 69.00 01 5.50 3.60 EUR 04 06 01 02 1 00 172.00 01 5.50 3.60 EUR 01 laboutique.edpsciences.fr-R001000 03 01 01 R001000 00 ED E107 02 01 01 Nuclear Reactor Systems A technical, historical and dynamic approach 01 eng 01 eng 08 433 03 22 79441537 17 16 00 06 01 https://laboutique.edpsciences.fr/flip_book/show/1055 01 P1 EDP Sciences 01 01 P1 EDP Sciences 17 avenue du Hoggar - PA de Courtaboeuf - 91944 Les Ulis cedex A http://publications.edpsciences.org/ 02 01 001354 03 9782759819850 15 9782759819850 03 01 D1 EDP Sciences 45 03 laboutique.edpsciences.fr-001354 03 01 01 001354 03 9782759819850 15 9782759819850 10 EA E107 10 02 01 R001000 ED E107 1 10 01 02 Génie Atomique 01 01 Nuclear Reactor Systems A technical, historical and dynamic approach 1 A01 01 A1498 Bertrand Barré Barré, Bertrand Bertrand Barré Graduated from École des Mines de Nancy, retired from CEA and AREVA, Bertrand Barré teaches Nuclear Engineering at Institut National des Sciences et Techniques Nucléaires, and Sciences-Po. He was Nuclear Attaché in Washington DC, Director of Engineering at Technicatome, Head of the Nuclear Reactors Directorate at CEA, R&D Vice-president at COGEMA, Scientific Advisor to AREVA, and Member of many Scientific Committees in France and abroad. 2 A01 01 A1499 Pascal Anzieu Anzieu, Pascal Pascal Anzieu Graduated from the École Centrale de Paris, France, Pascal Anzieu made his career at CEA on nuclear reactors design and safety. He led the Superphenix research program from 1994 to 1998 and then conducted research programs on future nuclear systems: sodium, gas, molten salt reactors, accelerator-driven systems, etc. He currently teaches at the National Institute for Nuclear Science and Technology and several engineering schools and universities. 3 A01 01 A1500 Richarch Lenain Lenain, Richarch Richarch Lenain Doctor of Orsay University 1982, currently coordinator of a CEA PWR expert group, Richard Lenain teaches Reactor Physics and Nuclear Engineering at INSTN, École Polytechnique and École Centrale de Paris. He was formerly head of Applied Mathematics and Reactor Studies Section in CEA/Saclay. 4 A01 01 A1501 Jean-Baptiste Thomas Thomas, Jean-Baptiste Jean-Baptiste Thomas Graduated from École Centrale de Paris with a postgraduate degree in Theoretical Physics (atomic and nuclear) at Orsay University, currently scientific advisor to the Nuclear Energy Director in CEA, Jean-Baptiste Thomas teaches Reactor Physics and Nuclear Engineering as a professor at INSTN (in charge of the Nuclear Reactor Systems course created by Bertrand Barré). He was formerly Director for ADS studies in CEA and Director for Simulation and Experimental Facilities in the Nuclear Energy Directorate. 1 01 eng 01 eng 08 432 03 01 24 Izibook:Subject Nucléaire 24 Izibook:SubjectAndCategoryAndTags |Nucléaire| 20 nuclear;reactor;strengths and weaknesses of the different reactor systems;fuel cycle sustainability;post-Fukushima safety 10 2011 SCI051000 29 3079 01 620 01 621.48 05 06 05 00 The evolution of nuclear reactors since the 1942 Fermi experiment can be described along the lines of natural history, with an initial flourish of uninhibited creativity followed by a severe selection process leading to a handful of surviving species, with light water reactors occupying most of the biotope today.The is book combines four approaches:<ul><li>A descriptive one. This gives an overview of the main strengths and weaknesses of the different reactor systems.</li><li>A historical approach, from the 1940’s to nowadays, with an extrapolation to the near future. The LWR dominance being firmly established, what is the next step?</li><li>An axiomatic approach. Starting with a set of long term criteria concerning the fuel cycle sustainability, a conceptual solution is established, and then a family of reactor systems is selected for development and qualifycation.</li><li>A dynamic approach. In the early 2000s, the prevailing image combined a “nuclear renaissance”, a strong limitation of the greenhouse gases concentration and a dynamic growth of the world economy. Updating the strategy in the wake of the last decade events requires a sharper understanding of the driving forces as well as of the influence of the post-Fukushima safety framework on the design constraints.</li></ul>All the books of the “Génie Atomique” series have adopted an instructional approach. Initially intended for INSTN’s students, they can be greatly helpful to physicists and engineers involved in the development or operational aspects of nuclear power. 03 00 The evolution of nuclear reactors since the 1942 Fermi experiment can be described along the lines of natural history, with an initial flourish of uninhibited creativity followed by a severe selection process leading to a handful of surviving species, with light water reactors occupying most of the biotope today.The is book combines four approaches:<ul><li>A descriptive one. This gives an overview of the main strengths and weaknesses of the different reactor systems.</li><li>A historical approach, from the 1940’s to nowadays, with an extrapolation to the near future. The LWR dominance being firmly established, what is the next step?</li><li>An axiomatic approach. Starting with a set of long term criteria concerning the fuel cycle sustainability, a conceptual solution is established, and then a family of reactor systems is selected for development and qualifycation.</li><li>A dynamic approach. In the early 2000s, the prevailing image combined a “nuclear renaissance”, a strong limitation of the greenhouse gases concentration and a dynamic growth of the world economy. Updating the strategy in the wake of the last decade events requires a sharper understanding of the driving forces as well as of the influence of the post-Fukushima safety framework on the design constraints.</li></ul>All the books of the “Génie Atomique” series have adopted an instructional approach. Initially intended for INSTN’s students, they can be greatly helpful to physicists and engineers involved in the development or operational aspects of nuclear power. 02 00 The evolution of nuclear reactors since the 1942 Fermi experiment can be described along the lines of natural history, with an initial flourish of uninhibited creativity followed by a severe selection process leading to a handful of surviving species, with light water reactors occupying most of the biotope today. The is book combines four ap... 21 00 06 01 https://laboutique.edpsciences.fr/produit/845/9782759819850/nuclear-reactor-systems 01 00 03 02 https://laboutique.edpsciences.fr/system/product_pictures/data/009/982/093/original/9782759806690-Reactor-systems_couv-sofedis.jpg 17 14 20240913T172520+0200 16 00 04 01 https://laboutique.edpsciences.fr/extract/963/preview 01 P1 EDP Sciences 01 01 P1 EDP Sciences 17 avenue du Hoggar - PA de Courtaboeuf - 91944 Les Ulis cedex A http://publications.edpsciences.org/ 04 01 00 20160303 19 00 20160223 2026 06 3052868830012 01 WORLD 13 03 9782759806690 15 9782759806690 WORLD 08 EDP Sciences 04 01 00 20160303 03 01 D1 EDP Sciences 20 04 05 01 02 1 00 47.99 01 5.50 2.50 EUR 01 04 06 01 02 1 00 168.99 01 5.50 2.50 EUR 01 04 06 01 02 1 00 184.99 01 5.50 9.64 USD 01