B106 GASIFICATION PERFORMANCE OF SOLID FUELS USING HIGH TEMPERATURE AIR BLOWN PEBBLE BED GASIFIER
スポンサーリンク
概要
- 論文の詳細を見る
A new distributed gasification system for solid fuels is proposed, which is named as MEET (the Multi-staged Enthalpy Extraction Technology) system. In order to realize this system, a demonstration plant of commercial scale, the MEET-II, was constructed. The capacity of the MEET-II is 200kg/h. MEET-II facility consists of a pebble bed slagging-gasifier, a gas clean-up system, a high temperature air generator and a gas engine. The pebble bed slagging-gasifier contains a fixed ceramic ball bed under an entrained flow bed. High temperature air of about 1,000℃ is used as a gasification medium in order to obtain higher calorific value syngas. Gasification and power generation tests at the MEET-II facility were conducted using powdered wood biomass as fuels. These tests demonstrated technical feasibility of the MEET-II facility.
- 一般社団法人日本機械学会の論文
著者
-
YOSHIKAWA Kunio
Department of Environmental Physics and Engineering, Tokyo Institute of Technology
-
Kiga Takashi
Ishikawajima-harima Heavy Industries Co. Ltd.
-
Yoshikawa Kunio
Department Of Environmental Physics And Engineering Tokyo Institute Of Technology
-
Sugiyama Shinobu
Department of Environmental Science and Technology, Tokyo Institute of Technology
-
Ishii Toru
Ishikawajima-Harima Heavy Industries Co., Ltd.
-
Yoshitaka Emi
Ishikawajima-Harima Heavy Industries Co., Ltd.
-
Yoshitaka Emi
Ishikawajima-harima Heavy Industries Co. Ltd.
-
Yoshikawa Kunio
Department Of Energy Sciences Interdisciplinary Graduate School Of Science And Engineering Tokyo Ins
-
Ishii Toru
Ishikawajima-harima Heavy Industries Co. Ltd.
-
Sugiyama Shinobu
Department Of Environmental Science And Technology 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
- 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))