Studies on a High Temperature Regenerative Heat Exchanger for Closed Cycle MHD Power Generation : Heat Transfer Analysis for the Combustion Chamber
スポンサーリンク
概要
- 論文の詳細を見る
Heat transfer processes in the combustion chamber of a pebble bed regenerative heat exchanger have been analyzed numerically for heating, evacuation, and argon heating periods successively. The calculated results well explain the measured temperature change at the top of the pebble bed. This computer code, which simulates the heat transfer processes for the combustion chamber, is coupled with that for the heat storage pebble bed to allow investigation of the overall unsteady thermal performance of a heat exchanger under the continuous cyclic operation. The analytical results point out that the geometrical optimization both for the combustion chamber and the heat storage bed is important for the improvement of the thermal performance of a regenerative heat exchanger.
- 一般社団法人日本機械学会の論文
- 1990-02-15
著者
-
Shioda Susumu
Department Of Energy Sciences Tokyo Institute Of Technology
-
Yoshikawa Kunio
Department Of Energy Sciences Interdisciplinary Graduate School Of Science And Engineering Tokyo Ins
-
Yoshikawa Kunio
Department Of Energy Sciences Tokyo Institute Of Technology
-
KIM Yunshik
Department of Marine Engine, Korea Maritime University
-
SHINAGAWA Yuuichi
Department of Energy Sciences, Tokyo Institute of Technology
-
CHENG Yong-yuan
Thermal Energy Engineering Research Institute, South West University
-
Kim Yunshik
Department Of Marine Engine Korea Maritime University
-
Cheng Yong-yuan
Thermal Energy Engineering Research Institute South West University
-
Shinagawa Yuuichi
Department Of Energy Sciences Tokyo Institute Of Technology
関連論文
- E102 CLEAN COMBUSTION OF HEAVY OILS WITH HIGH TEMPERATURE AIR COMBUSTION TECHNOLOGY
- TED-AJ03-615 LOW NO_x COMBUSTION OF PETROLEUM WITH HIGH TEMPERATURE AIR COMBUSTION TECHNOLOGY
- High Tar Reduction with Porous Particles for Low Temperature Biomass Gasification : Effects of Porous Particles on Tar and Gas Yields during Sawdust Pyrolysis
- E201 High Tar Reduction with Porous-particles for Low Temperature Biomass Gasification : A Consideration of Mechanism of Capacitance Effect
- Adiabatic Efficiency of Supersonic Faraday MHD Generator
- B106 GASIFICATION PERFORMANCE OF SOLID FUELS USING HIGH TEMPERATURE AIR BLOWN PEBBLE BED GASIFIER
- 213 Catalytic Reforming of Model Compounds of Pyrolysis Tars(International session)
- Performance of High Temperature Air Combustion Boiler with Low NO_x Emission(Special Issue on International Conference on Power and Energy System)
- Nonlinear Ionization Instability of Plasma in Inert Gas Cycle Direct Power Generation
- A108 PERFORMANCE OF A DUAL-FUELED DIESEL ENGINE DRIVEN BY LOW CALORIFIC GAS
- R&D on Micro-pyrolyzer for Solid Wastes Using High Temperature Steam and Air(Special Issue on International Conference on Power and Energy System)
- Studies on a High Temperature Regenerative Heat Exchanger for Closed Cycle MHD Power Generation : Heat Transfer Analysis for the Combustion Chamber
- B203 PEFORMANCE DEMONSTRATION OF POWER GENERATION FROM SOLID WASTES BY COMBINATION OF PYROLYSIS AND STEAM REFORMING
- A310 Experimental Study on Gasification of Biomass Using a Pebble Bed Slagging Gasifier
- 4-7-4 Combined pyrolysis and catalytic reforming of waste plastic for the polygeneration of solid, gaseous and liquid fuels
- Basic Study on Hydrogen-Rich Gas Production by High Temperature Steam Gasification of Solid Wastes
- 420 スタティックミキサーを用いたコーン油からのバイオディーゼル製造のためのエステル交換反応の反応速度(新エネルギー(3))