- Lecturer
- Ninokata Hisashi
- Place
- Fri3-4(蜴溯シェ North No.2 5F-571)
- Credits
- Lecture2 Exercise0 Experiment0
- Code
- 71002
- Syllabus updated
- 2008/10/1
- Lecture notes updated
- 2008/10/1
- Semester
- Fall Semester
Outline of lecture
縺薙ョ隰帷セゥ縺ッシ瑚・ソ證ヲ螂謨ー蟷エ蠎ヲ縺ッ譌・譛ャ隱槭〒シ後∪縺溷カ謨ー蟷エ蠎ヲ縺ッ闍ア隱槭〒陦後≧縲よク蛻陬ょ梛蜴溷ュ千i縺ョ蝓コ譛ャ蜴溽炊シ檎匱髮サ繝励Λ繝ウ繝医ョ讎りヲ√r隱ャ譏弱@シ悟ョ滄圀縺ョ蜴溷ュ千i險ュ險医ョ蝓コ遉弱→縺ェ繧狗炊隲悶♀繧医ウ螳溯キオ縺ォ縺、縺縺ヲ霑ー縺ケ縺ヲシ悟ー譚・シ悟次蟄千i蟾・蟄ヲ繧蜴溷ュ仙鴨逋コ髮サ謚陦薙∪縺溘ッ髢「騾」蛻驥弱↓謳コ繧上k閠縺ォ縺ィ縺」縺ヲ蠢隕√↑遏・隴倥r謗医¢繧九ょ螳ケ縺ョ讎ら払縺ッ莉・荳九ョ騾壹j縺ァ縺ゅk縲
01.蜴溷ュ千i險ュ險域ヲりヲシ郁ィュ險育岼讓呻シ瑚ィュ險医ョ蛻驥趣シ瑚ィュ險医ョ豬√lシ御ク菴灘梛PWR繧剃セ九↓縺ィ縺」縺溷ョ滄圀萓九ョ邏ケ莉具シ
02.辭ア豬∝虚險ュ險茨シ郁ィュ險医ョ豬√lシ檎ア豬∝鴨險ュ險亥宛髯仙、シ後帙ャ繝医せ繝昴ャ繝医ヵ繧。繧ッ繧ソ繝シシ後し繝悶メ繝」繝ウ繝阪Ν隗」譫撰シ後す繧ケ繝繝隗」譫撰シ
03.譬ク險ュ險茨シ育i迚ゥ逅縺ィ險ュ險茨シ碁ォ倬溽i繧剃セ九↓縺ィ縺」縺溽i蠢險ュ險医ヵ繝ュ繝シシ檎i蠢迚ケ諤ァ隧穂セ。シ瑚ィュ險域焔豕輔→險ュ險医Ξ繝吶Νシ
04.蜴溷ュ千i蜍慕音諤ァシ井ク轤ケ霑台シシシ悟渚蠢懷コヲシ梧曹蜍戊ォ厄シ後ヵ繧」繝シ繝峨ヰ繝繧ッシ悟宛蠕。シ
05.霆ス豌エ轤峨サ鬮倬溽i繝励Λ繝ウ繝医す繧ケ繝繝縺ョ讎りヲ√→貂ゥ蠎ヲ蠢懃ュ皮音諤ァシ医す繝溘Η繝ャ繝シ繧ソ螳溽ソ抵シ
06.蜴溷ュ千i螳牙ィ險ュ險茨シ亥ョ牙ィ逶ョ讓呻シ後Μ繧ケ繧ッシ悟ョ牙ィ菫晁ュキ邉サシ檎「コ邇隲也噪螳牙ィ諤ァ隧穂セ。シ窪PZシ
07.蜴溷ュ千i讒矩險ュ險茨シ域ァ矩險ュ險医ョ蝓コ譛ャシ梧ァ矩險ュ險域欠驥晢シ
08.蜴溷ュ千i險ュ險医ョ螳滄圀シ磯ォ倬溷「玲ョ也iシ御ク菴灘梛PWRシ窟BWRシ窟PWRシ檎ャャ4荳紋サ」蜴溷ュ千i繝励Λ繝ウ繝茨シ
シ郁・ソ證ヲ驕謨ー蟷エ蠎ヲ縺ッ闍ア隱槭〒シ悟・謨ー蟷エ蠎ヲ縺ッ譌・譛ャ隱槭〒髢玖ャ帙☆繧具シ
The lectures provide a basic principle of nuclear power reactors, advanced theories of nuclear reactor kinetics and thermal hydraulics and their applications, and in-depth understanding of nuclear reactor safety. With the fundamental knowledge of nuclear reactor physics as prerequisite, the lectures will cover the theory and practices in nuclear reactor core design and safety evaluation.
01.Design target and approaches, review of nuclear and thermal hydraulics principles
02.Core nuclear characteristics and design, fast reactors and thermal reactors
03.Nuclear reactor dynamics including one-point kinetics,
04.Perturbation theory, reactivity feedbacks
05.Thermal-hydraulics design, design limits, hot spot factors for LWRs and LMFBRs
06.Subchannel analysis
07.Structural engineering and design principle
08.LWR plant safety systems and plant dynamics simulation
09.Probabilistic safety analysis - Introduction to risk-informed design approach
10.Nuclear reactor safety target, reactor protection systems, EPZ
11.Integrated primary system reactor - IRIS and safety by design
12.LMFBR design practices of the MONJU plant
Lectures are given in English in even years, and in Japanese in odd years.
Purpose of lecture
蜴溷ュ千i縺ョ蝓コ譛ャ繧堤炊隗」縺吶k縺ィ縺ィ繧ゅ↓縲∝次蟄千i蜀縺ョ譬ク蜿榊ソ懊→辭ア豬∝虚縺ォ髢「縺吶k髱咏噪縺翫h縺ウ蜍慕噪縺ェ迚ケ諤ァ隗」譫舌↓髢「縺吶k蝓コ遉守噪縺ェ逅隲悶→蠢懃畑繧貞ュヲ縺ウ縲∝次蟄千i轤牙ソ螳牙ィ諤ァ縺ョ逅隗」繧堤岼逧縺ィ縺吶k縲ょ次蟄千i逅隲悶ョ遏・隴倥r蜑肴署縺ォ蜴溷ュ千i縺ョ險ュ險医∝ョ牙ィ隧穂セ。縺ォ蠢隕√↑逅隲悶→螳滄圀縺ォ縺、縺縺ヲ霑ー縺ケ繧九
Plan of lecture
01.蜴溷ュ仙鴨逋コ髮サ縺ョ莉慕オ縺ソシ啀WR縲。WR縲:BR縲驥肴ーエ轤我サ
02.閾ィ逡瑚ィ育ョ励→蝗コ譛牙、
03.蜴溷ュ千i蜍慕音諤ァ譁ケ遞句シ上→蜿榊ソ懷コヲ繝輔ぅ繝シ繝峨ヰ繝繧ッ
04.鞫ょ虚隲厄シ井ク鄒、縲∝、夂セ、シ
05.PWR縲。WR繝励Λ繝ウ繝医す繧ケ繝繝縺ョ讎りヲ√→驕取ク。蠢懃ュ費シ医す繝溘Η繝ャ繝シ繧ソ繝シ蛻ゥ逕ィシ
06.轤牙ソ險ュ險医ョ豬√lシ壽ク險ュ險医→辭ア豬∝鴨險ュ險
07.轤牙ソ辯譁咎寔蜷井ス楢ィュ險医→繧オ繝悶メ繝」繝ウ繝阪Ν隗」譫
08.轤牙ソ辭ア險ュ險医→繝帙ャ繝医せ繝昴ャ繝医ヵ繧。繧ッ繧ソ繝シ隗」譫
09.鬮倬溽i轤牙ソ縺翫h縺ウ螳牙ィ險ュ險医ョ閠縺域婿
10.霆ス豌エ轤画ァ矩險ュ險医→蛛・蜈ィ諤ァ隧穂セ。
11.ABWR險ュ險医ョ螳滄圀
12.鬮倬溷「玲ョ也i蜴溷梛轤峨後b繧薙§繧縲崎ィュ險亥ョ溯キオ縺ョ豁エ蜿イ
13.隨ャIV荳紋サ」蜴溷ュ千i險ュ險医ョ萓九→遒コ邇隲也噪螳牙ィ諤ァ隧穂セ。
Textbook and reference
James J. Duderstadt, Louis J. Hamilton,""Nuclear Reactor Analysis"", John Wiley & Sons, 1976.
蜿り譖ク遲
J. R. Lamarsh and A.J. Baratta, ""Introduvtion to Nuclear Engineering,"" Prentice Hall, 2001
Related and/or prerequisite courses
蜴溷ュ千i逅隲
Evaluation
蜃コ蟶ュ轤ケ縺ィ繝ャ繝昴シ繝
Comments from lecturer
譛ャ隰帷セゥ縺ッ蜴溷ュ千i蟾・蟄ヲ縺ォ謳コ繧上k莠コ縺ォ縺ィ縺」縺ヲ縲∝渕遉弱→縺ェ繧狗衍隴倥r謗医¢繧九b縺ョ縺ァ縺吶ら卆閨槭ッ荳隕九↓縺励°縺壹∽セ句ケエ縲∬ャ帷セゥ邨ゆコ蠕後鬮倬溽i繧ゅs縺倥e縲。WR縺セ縺溘ッPWR縺ョ繝励Λ繝ウ繝郁ヲ句ュヲ繧剃シ∫判縺励※縺縺セ縺吶
