C308 RESEARCH AND DEVELOPMENT FOR GAS TURBINE SYSTEM IN GTHTR300
スポンサーリンク
概要
- 論文の詳細を見る
The GTHTR300 aiming at electric generation with its thermal efficiency of 46% is a safe and economically competitive HTGR in 2010s. A helium gas turbine system connected with the reactor is designed based on existing technologies developed for fossil gas turbine systems. However, there are some uncertainties in performance of a helium gas compressor, electric magnetic bearings and control system. In order to confirm these technical uncertainties, a 1/3 scale model of the compressor and 1/3 scale magnetic gearings will be manufactured and tested in the simulated condition of the GTHTR300. Also, a 5 MW helium gas loop composed of the gas turbine system and electric heaters will be constructed, and control performance during startup and shutdown, and off-normal transients such as loss of site loads will be tested to streamline the gas turbine system. This paper describes R&D plans focusing on the 1/3 scale compressor model test as well as unique design features of the GTHTR300.
- 一般社団法人日本機械学会の論文
著者
-
Yan X
(独)日本原子力研究開発機構原子力基礎工学研究部門
-
Yan Xing
Department Of Advanced Nuclear Heat Technology Oarai Research Establishment Japan Atomic Energy Rese
-
Takada Shoji
Department Of Advanced Nuclear Heat Technology Oarai Research Establishment Japan Atomic Energy Rese
-
Kunitomi Kazuhiko
Department Of Advanced Nuclear Heat Technology Oarai Research Establishment Japan Atomic Energy Rese
-
Takizuka Takakazu
Department Of Advanced Nuclear Heat Technology Oarai Research Establishment Japan Atomic Energy Rese
-
Kosugiyama Shinichi
Department Of Advanced Nuclear Heat Technology Oarai Research Establishment Japan Atomic Energy Rese
-
KATANISHI Shoji
Department of Advanced Nuclear Heat Technology, Oarai Research Establishment, Japan Atomic Energy Re
-
Katanishi Shoji
Department Of Advanced Nuclear Heat Technology Oarai Research Establishment Japan Atomic Energy Rese
-
Katanishi Shoji
Department Of Advanced Nuclear Heat Technology Japan Atomic Energy Research Institute
関連論文
- 高温ガス炉ガスタービン発電システム (GTHTR300)の核熱流動設計
- 高温ガス炉ガスタービン発電システム(GTHTR300)の設計研究
- P22-08 高温ガス炉ガスタービン発電システム (GTHTR300) の設計研究(H13 年度研究)
- 高温ガス炉ヘリウムガスタービン(ガスタービンを利用した新型発電システム)
- 高温ガス炉ガスタービン発電システム用軸流式ヘリウムガス圧縮機の端壁境界層厚さの抑制方法に関する研究(流体工学,流体機械)
- GTHTR300用ヘリウムガス圧縮機モデル性能試験(NP3 新型炉技術)
- 高温ガス炉ガスタービン発電システム(GTHTR300) 発電系設備の点検方法・手順
- 高温ガス炉ガスタービン発電システム(GTHTR300) の磁気軸受支持ロータダイナミクス試験計画
- 高温ガス炉ガスタービン発電システム(GTHTR300)発電系整備の保守・点検の基本方針
- 高温ガス炉ガスタービン発電システム(GTHTR300)用ヘリウムガス圧縮機モデルの空力性能試験計画
- A-9 高温ガス炉ガスタービン発電システム(GTHTR300)の動力変換系統の設計(ガスタービンシステムIII)
- 高温ガス炉ガスタービン発電システム(GTHTR300)の発電系設計
- P22-10 高温ガス炉ガスタービン発電システム (GTHTR300) 発電系の設計
- ICONE11-36369 A VERIFICATION PLAN OF ROTOR DYNAMICS OF TURBOMACHINE SYSTEM SUPPORTED BY AMB FOR THE GTHTR300 (STEP 1)
- 1P-129 KIF1A分子モーターの一方向性の運動発現機構のシミュレーション研究(分子モーター,第47回日本生物物理学会年会)
- 1TA4-02 KIF1A分子モーターの一方向性の運動発現機構のシミュレーション研究(分子モーター,第47回日本生物物理学会年会)
- ICONE11-36368 THE 1/3-SCALE AERODYNAMICS PERFORMANCE TEST OF HELIUM COMPRESSOR FOR GTHTR300 TURBO MACHINE OF JAERI (STEP 1)
- 1P126 粗視化シミュレーションによるヌクレオソームの動的構造解析(核酸結合蛋白質,第48回日本生物物理学会年会)
- 2P119 Functionally rotating mechanism of a multidrug transporter studied by coarse-grained simulation(The 48th Annual Meeting of the Biophysical Society of Japan)
- Research and Development for Gas Turbine System in GTHTR300(International Conferences on Power and Energy System)
- C308 RESEARCH AND DEVELOPMENT FOR GAS TURBINE SYSTEM IN GTHTR300
- ICONE11-36371 Design and development of Gas Turbine High Temperature Reactor 300
- High Power Transient Characteristics and Capability of NSRR
- Experimental and Numerical Studies on Performance of Passive Decay Heat Removal by a Water Cooling Panel from a High-Temperature Gas-Cooled Reactor
- Simulating Folding of Helical Proteins with Coarse Grained Models
- 将来型高温ガス炉の研究開発
- Experimental Study on the Fuel Behavior during Reactivity Accident at Power Operation Condition
- Refractive-Index-Matched Indium–Tin-Oxide Electrodes for Liquid Crystal Displays
- Rigor of cell fate decision by variable p53 pulses and roles of cooperative gene expression by p53
- Effect of crossflow on flow distribution in HTGR core column.