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저압 고안전성 해수담수 전용 원자로 AHR400 개념설계
Conceptual Design of Low-pressure Highly-safe AHR400 Dedicated to Seawater Desalination

  • 사업명

    한국과학기술원운영경비

  • 과제명

    저압 고안전성 해수담수 전용 원자로 AHR400 개념설계

  • 주관연구기관

    한국과학기술원
    Korea Advanced Institute of Science and Technology

  • 보고서유형

    최종보고서

  • 발행국가

    대한민국

  • 언어

    대한민국

  • 발행년월

    2015-12

  • 과제시작년도

    2015

  • 주관부처

    미래창조과학부
    Ministry of Science, ICT and Future Planning

  • 등록번호

    TRKO201600002207

  • 과제고유번호

    1711032527

  • DB 구축일자

    2016-06-04

  • DOI

    https://doi.org/10.23000/TRKO201600002207

  • 초록 


    1. Research Purpose
    - Problem: Fresh Water Shortages
    Fresh water is essential for the health of all life and the environmen...

    1. Research Purpose
    - Problem: Fresh Water Shortages
    Fresh water is essential for the health of all life and the environment. For human beings, the fresh water supply is closely related to economic development. Unfortunately, much of the world’s population is suffering from a serious shortage of fresh water, and this number will increase if the water supply cannot keep pace with population growth and economic expansion. Water can be found everywhere on the earth’s surface, but only a small portion of the surface water supply is available as fresh water; most of the water supply exists in the form of ice and groundwater.

    - Solution: Nuclear Desalination
    Desalination is a process that converts abundant seawater or brackish water into fresh water by removing salt and other minerals to the desired levelusing a certain amount of energy. The selection of the optimal energy and desalination technologies is crucially important to the success of desalination projects. Optimal energy and desalination technologies are selected based on various factors such as relative economics, performance, safety, environmental impact and suitability.


    ...


  • 목차(Contents) 

    1. 표지 ... 1
    2. 2015 Intl Joint Research Project Final Report ... 2
    3. 1. Research Purpose ... 9
    4. 2. Research Target Using Progress Chart ... 12
    5. 3. Research Method ... 18...
    1. 표지 ... 1
    2. 2015 Intl Joint Research Project Final Report ... 2
    3. 1. Research Purpose ... 9
    4. 2. Research Target Using Progress Chart ... 12
    5. 3. Research Method ... 18
    6. 3.1. Background Study ... 18
    7. 3.2. Desalination Process Analysis ... 18
    8. 3.3. Dedicated System Design: Basic Design Concepts ... 19
    9. 3.4. Dedicated System Design: Reactor Core ... 21
    10. 3.5. Dedicated System Design: RCS and Safety System ... 22
    11. 3.6. Dedicated System Design: Structural Materials ... 25
    12. 3.7. Dedicated System Design: Reactor without RCP ... 29
    13. 3.8. Cogeneration System Design: Basic Design Concepts ... 30
    14. 3.9. Cogeneration System Design: Coupling ConfigurationOptimization ... 31
    15. 3.10. Cogeneration System Design: Application of S-CO2Power Cycle ... 32
    16. 3.11. Evaluation of Safety and Economy ... 34
    17. 4. Research Results ... 35
    18. 4.1. Preliminary Study ... 36
    19. 4.2. Desalination Process Analysis ... 48
    20. 4.3. Dedicated System Design: Basic Design Concepts ... 58
    21. 4.4.1. Reactor Core Layout ... 68
    22. 4.4.2. Initial Reactor Core Design ... 70
    23. 4.4.3. Neutronic and Thermal-hydraulic Analysis ... 75
    24. 4.4.4. Equilibrium Reactor Core Soluble Boron-Free Design ... 85
    25. 4.5. Dedicated System Design: RCS and Safety System ... 88
    26. 4.6. Dedicated System Design: Structural Materials ... 119
    27. 4.7. Dedicated System Design: Reactor without RCP ... 132
    28. 4.8. Cogeneration System Design: Basic Design Concepts ... 134
    29. 4.9. Cogeneration System Design: Coupling ConfigurationOptimization ... 138
    30. 4.10. Cogeneration System Design: Application of S-CO2Power Cycle ... 149
    31. 4.11. Evaluation of Safety and Economy ... 155
    32. 끝페이지 ... 191
  • 참고문헌

    1. 전체(0)
    2. 논문(0)
    3. 특허(0)
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