C313 STUDY ABOUT SOFC-GAS TURBINE COMBINED CYCLE
スポンサーリンク
概要
- 論文の詳細を見る
Solid oxide fuel cell (SOFC) shows excellent stability in the material compared with other type fuel cells because electrolyte and electrode of SOFC are chiefly composed of ceramics, and the generation efficiency is expected to achieve over 50%. In addition, it is reported that the generation efficiency is improved further by combining with gas turbine (SOFC-GT combined cycle) by using the feature with the high operating temperature. On the other hand, it is problem that the materials of peripherals and pipes, etc used in SOFC system are restricted and high cost. And the thermodynamic feature is not understood enough about SOFC-GT combined cycle. Therefore, we analyzed the heat and mass balance of SOFC-GT combined cycle based on the experimental data of material developed for low temperature operating SOFC cell. And the influence that some parameters, such as the operating temperature and fuel utilization ratio of SOFC, pressure ratio and turbine inlet temperature (TIT) of GT gave generation efficiency was examined to understand the thermodynamic feature of SOFC-GT combined cycle. We could obtain some results about characteristic of SOFC-GT combined cycle.
- 一般社団法人日本機械学会の論文
著者
-
Inagaki Toru
The Kansai Electric Power Co. Inc.
-
Inagaki Toru
The Kansai Electric Power Company Inc.
-
Yoshida Hiroyuki
The Kansai Electric Power Company Inc.
-
TAKAHASHI Toru
Central Research Institute of Electric Power Industry (CRIEPI)
-
KODA Eiichi
Central Research Institute of Electric Power Industry (CRIEPI)
-
SASAKI Tsunehisa
The Kansai Electric Power Company, Inc.
-
Koda Eiichi
Central Research Institute Of Electric Power Industry
-
Sasaki Tsunehisa
The Kansai Electric Power Company Inc.
-
Takahashi Toru
Central Research Institute Of Electric Power Industry
関連論文
- C204 DEVELOPMENT OF IT-SOFC BASED ON LANTHANUM GALLATE ELECTROLYTE(Fuel Cell-1)
- C313 STUDY ABOUT SOFC-GAS TURBINE COMBINED CYCLE
- Development of Performance Deterioration Diagnosis Method for Gas Turbine Combined Cycle Power Plants
- E209 Development of the performance deterioration diagnosis method to thermal power plant based on heat and mass balance analysis(Power System-2)
- A Systematic Analysis of the Effect of Air Humidification to Gas Turbine Systems(Special Issue on International Conference on Power and Energy System)
- TS-18 Hydrogen-Oxygen Fired Integrated Turbine Systems : Comparison on MORITS and GRAZ(Session A-5: Performance 2)
- Development of General-Purpose Software to Analyze the Static Thermal Characteristic of Nuclear Power Plant
- TS-20 Study on High Performance CAES Power Generation System Applying the Advanced Combined Cycle Technology(Session A-5: Performance 2)