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内容简介
程旭、杨燕华、刘晓晶*的《混合能谱超临界水堆的设计与关键技术(英文版)(精)》将以混合能谱超临界水堆SCWR-M的设计与关键技术为议题,阐述超临界水堆研发现状、堆芯设计技术、电厂系统设计技术、系统设计与分析程序开发、现有热工水力的挑战、超临界水堆材料能研究等内容。其中,混合能谱超临界水堆的概念、设计、分析、工具开发、热工水力均是作者本人及其团队的研究成果和创见。
目录
1 Introduction
1.1 Status and Perspective of Nuclear Energy in China
1.2 Nuclear Power Technology in China
1.3 GEN-Ⅳ and SCWR
1.4 Status of SCWR R&D
1.5 Proposal of SCWR M
2 SCWR- M Core Design and Analysir> 2.1 Features of SCWR- M Core
2.1.1 Main criteria considered in SCWR design
2.1.2 Features of SCWR- M
2.2 Structures of Fuel Aslier> 2.3 Design Analysis Approacher> 2.3.1 Neutronic approach
2.3.2 Thermal hydraulic code
2.3.3 Coupled approach
2.4 Design Analysis of Mixed Core (Resultr> 2.4.1 Core results (homogeneous fuel asly)
2.4.2 Pin wise power distribution
2.4.3 Core and -channel analysis of the fresh
2.4.4 Improvement of the SCWR- M
2.5 Summary
3 Safety System Design and Analysir> 3.1 Safety Requirementr> 3.2 Configuration of Safety Systemr> 3.3 Numerical Tools for Safety Analysir> 3.3.1 ATHLET SC code development
3.3.2 ATHLET- SC code verification and validation ..
3.3.3 Summary of the code development
3.4 Results of Safety Analysis :...
3.4.1 Initial condition and assumptionr> 3.4.2 LOFA analysis of SCWR- M
3.4.3 Key parameters analysis during LOFA
3.4.4 LOCA analysis of SCWR- M
3.5 Remarks for Future R&D Needr>4 SCWR Thermal-Hydraulicr> 4.1 Introduction
4.2 Heat Transfer
4.2.1 General featurer> 4.2.2 Numerical analysir> 4.2.3 Experimental studier> 4.2.4 Prediction methodr> 4.3 Experimental Techniques Using Surrogate Fluidr> 4.4 Flow Stability
4.4.1 Static inility
4.4 2 Dynamic inility
5 New Grade Materials for SCWR
5.1 The Candidate Structural Materials for SCWR
5.2 Design and Fabrication of New Grade Cling Materialr> 5.2.1 Processing of ODS steelr> 5.2.2 Microstructural observation
5.2.3 Mechanical property
5.3 SCW Corrosion Performance
5.3.1 Material and methodr> 5.3.2 Corrosion rate
5.3.3 Surface oxide analysir> 5.3.4 Corrosion mechanir> 5.3.5 SCC susceptibility
Summary
Reference
SUBJECT INDEX