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The book covers basic approaches to the nuclear fuel state of energy reactors in the last stages of the nuclear fuel cycle, these have been developed by the authors based on Ukrainian Nuclear Power Plant (NPP) operational experience. The book starts by looking at the physical safety basis of water-water energetic reactor (WWER) nuclear fuel. It goes on to discuss modern approaches to the heat exchange modelling in nuclear power plant equipment. Next, the safety criteria when making a decision about dry storage for WWER-1000 fuel assembly are discussed. Then the effect of reactor capacity…mehr

Produktbeschreibung
The book covers basic approaches to the nuclear fuel state of energy reactors in the last stages of the nuclear fuel cycle, these have been developed by the authors based on Ukrainian Nuclear Power Plant (NPP) operational experience. The book starts by looking at the physical safety basis of water-water energetic reactor (WWER) nuclear fuel. It goes on to discuss modern approaches to the heat exchange modelling in nuclear power plant equipment. Next, the safety criteria when making a decision about dry storage for WWER-1000 fuel assembly are discussed. Then the effect of reactor capacity cyclic changes on energy accumulation of creep formations in fuel cladding is covered in full, along with a chapter on the analysis of WWER-1000 fuel cladding failure. Finally, the book finishes with a description of thermal safety criteria for dry storage of spent nuclear fuel. The book is essential reading for anyone concerned with NPP maintenance and safety.
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Autorenporträt
Maksymov Maksym was born in June 9, 1964 in Odessa. He graduated from Odessa Polytechnic Institute in 1986 with a degree in nuclear power plants. In 1990 he defended his PhD dissertation related to the dynamic modes of operation of nuclear power plants with WWER-1000. After defending his dissertation doctor of science in 2000, which was related to the automation of refuelling of nuclear fuel at nuclear power plants with WWER-1000, he was elected professor at the Department of Nuclear Power Plants. He currently holds the position of Head of the Department of Computer Automation Technologies. Scientific interest is devoted to models and methods that provide automated control of the reliability and efficiency of operation of a nuclear power plant depending on the modes of its operation. Supervised of training four doctors of sciences and twelve PhD.