| Title | | Form | Organization | | Publication No. | | Pub. Date |
|
|
| Steam-Injected GT Cycles Offer More Power in a Hot Season | | Paper | ASME IJPC | | IJPGC2003-40057 | | June, 2003 |
| A Case Study of Mixed Gas-Steam Cycle GT: | | Paper | ASME IGTI | | ASME 99GT327 | | June, 1999 |
| LM6000 Class Aeroderivative Gas Turbine |
| Thermodynamic Performance Analyses of Mixed Gas-Steam Cycle: | | Paper | ASME IGTI | | ASME 98GT118 | | June, 1998 |
| A Case Study of Aero GT |
| Thermodynamic Performance Analyses of Mixed Gas-Steam Cycle: | | Paper | ASME IGTI | | ASME 98GT117 | | June, 1998 |
| Performance Prediction Method |
| GT Cogeneration in Simpson Paper Company | | Article | GTSJ Journal | | | | Mar., 1988 |
|
|
| Testing Facilities for New Aero-Engine Development | | Article | IHI Engineering Review | | | | Jan., 1996 |
| Air Propulsion System -- Chap. 8 Testing Facilities | | Guidance | Aircraft Technology | | | | Aug., 1995 |
| CVL Application for Supersonic Wind Tunnel | | Paper | AIAA Ground Testing | | AIAA 94-3257 | | July, 1994 |
| of Blow-Down Type |
| Development of Erosin Testing Facility | | Paper | High-Temp. Material '92 | | | | Dec., 1993 |
|
| of High Enthalpy Type |
| Development 0f Ultra-Hypersonic Shock Tunnel | | Article | IHI Engineering Review | | | | Apr., 1993 |
| for Aerodynamic Test |
| Development of Hypersonic Shock Tunnel | | Article | IHI Engineering Review | | | | Sep., 1992 |
| High Enthalpy Wind Tunnel for Erosion Testing | | Paper | AIAA Ground Testing | | AIAA 92-3888 | | July, 1992 |
| of Advanced Materials |
|
|
| Cryogenic Cogeneration System by Hydrogen Absorbing Alloys | | Paper | Meta-Hi Sympo.(MH96) | | A3-03 | | Aug., 1996 |
| An Experimental Study of Float Type LNG Terminal | | Paper | LNG Sympo. (LNG12) | | LNG12 5.7 | | May, 1998 |
| Closed Cycle Gas Turbine by LNG Cryogenic Heat Utilization | | Paper | AIChE Spring Mtg | | 115c | | Mar., 1999 |
| A Design Study of Closed Cycle GT | | Paper | AIChE Spring Mtg | | 118e | | Mar., 1999 |
| by LNG Cryogenic Heat Utilization |
| An Ericsson Cycle GT Design by LNG Heat Utilization | | Paper | ASME IGTI | | ASME 2000GT166 | | May, 2000 |
|
|
| Study on Impact to Industries by Aero-Technology | | Report | Central Aerospace Promo. Comm. | | | | Mar., 1990 |
| Study on AeroSpace Industry Establishment in Hokkaido | | Report | Hokkaido Development Org. | | | | May, 1991 |
| Aircraft Development and Testing Facilities | | Oral | Hokkaido Aerospace Study Comm. | | Report1990 | | Dec., 1991 |
| Study on Realization of High Efficiency Generating Plant | | Report | Report for1996 Study | | NEDO-P9608 | | Mar., 1997 |
| Overview Natural Gas Pipeline Study('88-'96) | | Report | Gas Pipeline Study Committee | | | | Mar., 1997 |
| International Pipelien in Northeast Asia | | Report | Asian Gas Pipeline Study Comm. | | | | Nov., 1998 |
| Energy Alliance in Northeast Asia | | Report | Mitsubishi Research Inst. | | | | June, 1999 |
|
|
| Advanced Gas Turbine Cycle | | Patent | Patent Agency of Japan | | Pat 8-259877 | | Sep., 1996 |
| Advanced Gas Turbine Cycle | | Patent | Patent Agency of Japan | | Pat 8-259878 | | Sep., 1996 |