| Yasuhisa SHINMOTO | Last modified dateļ¼2024.04.15 |
Assistant Professor /
Space Systems Engineering /
Department of Aeronautics and Astronautics /
Faculty of Engineering
Reports
| 1. | "Accurate Understanding of Interfacial Behaviors and Corresponding Heat Transfer and the Establishment of Methods for Evaluating Cooling Performance of Flow Boiling in Mini-channels". |
| 2. | Ryoji IMAI, Koichi SUZUKI, Haruo KAWASAKI, Haruhiko Ohta, Yasuhisa SHINMOTO, Hitoshi ASANO, Osamu KAWANAMI, Kiyosumi FUJII, Satoshi MATSUMOTO, Takashi KURIMOTO, Hidemitsu TAKAOKA, Michito SAKAMOTO, Koshiro USUKU, Kenichiro SAWADA, Development of Boiling and Two-phase Flow Experiments on Board ISS (Condensation Section), International Journal of Microgravity Science Application, The Japan Society of Microgravity Application (JASMA), DOI: 10.15011/ijmsa.33.330103, Received 24 December 2015, Accepted 22 January 2016, Published 31 January 2016, 2016.01. |
| 3. | Haruhiko Ohta, Hitoshi ASANO, Osamu KAWANAMI, Koichi SUZUKI, Ryoji IMAI, Yasuhisa SHINMOTO, Satoshi MATSUMOTO, Takashi KURIMOTO, Hidemitsu TAKAOKA, Kiyosumi FUJII, Michito SAKAMOTO, Kenichiro SAWADA, Haruo KAWASAKI, Atsushi OKAMOTO, Kazumi KOGURE, Toshiharu OKA, Koshiro USUKU, Toshiyuki TOMOBE, Masahiro TAKAYANAGI, Development of Boiling and Two-phase Flow Experiments on Board ISS (Research Objectives and Concept of Experimental Setup), International Journal of Microgravity Science Application, The Japan Society of Microgravity Application (JASMA), DOI: 10.15011/ijmsa.33.330102, Print ISSN: 0915 3616, ONLINE ISSN: 2188 9783, Received 24 December 2015, Accepted 22 January 2016, Published 31 January 2016, 2016.01. |
| 4. | Title: Research and Development Project for Green Network/System Technology (Green IT Project), R&D of Fundamental Technology for Data Centers to Optimize Energy Use, Studies on Optimal Heat Removal Methods and System Configuration Development, Development of Advanced Integrated Thermal Management System with Cooling Network and Nanofluid Heat Transfer Enhancement, FY2012, Final Report Summary. |
| 5. | Title: Research and Development Project for Green Network/System Technology (Green IT Project), R&D of Fundamental Technology for Data Centers to Optimize Energy Use, Studies on Optimal Heat Removal Methods and System Configuration Development, Development of Advanced Integrated Thermal Management System with Cooling Network and Nanofluid Heat Transfer Enhancement, FY2008-2010, Final Report Summary. |
| 6. | Proposal of Microgravity Experiments on Forced Convection Boiling in Orbit, H. Ohta, H. Asano, O. Kawanami, R. Imai, K. Suzuki, Y. Shinmoto, Y. Abe, K. Tanaka, R. Savino, S. Yoda, S. Matsumoto, K. Fujii, H. Kawasaki, H. Ishizuka, A. Kamoto, K. Murakami, T. Uchida, T. Kobayashi, R. Kobayashi, K. Ohkubo, S. Shinozaki, K. Kogure, A. Murakami, Y. Ueda, Y. Nakagawa, Journal of The Japan Society of Microgravity Application, Vol.26, No.3, pp.213-217, [URL]. |
| 7. | Studies on the Clarification of Heat Transfer Characteristic for Flow Boiling in Small Channels and its Improvement, Haruhiko OHTA, Yoshiyuki ABE, Koichi INOUE, Yasuhisa SHINMOTO, Report of Research Project, Grant-in-Aid for Scientific Research (B) (2006-2007) Project Number:18360103. |
| 8. | Studies on the Clarification of Heat Transfer Characteristic for Flow Boiling in Small Channels and its Improvement, Haruhiko OHTA, Yoshiyuki ABE, Koichi INOUE, Yasuhisa SHINMOTO, Report of Research Project, Grant-in-Aid for Scientific Research (B) (2004-2005) Project Number:16360107. |
| 9. | The target of the present research is to realize the removal of heat flux 300W/cm^2 from a large cooling surface of 10-15cm square. Three elementary technologies were developed and applied: A new structure of liquid channel to enhance the liquid supply, application of micro-bubble emission boiling under subcooled liquid conditions, self-wetting mixtures to enhance the positive surface tension effect on the increase of critical heat flux., [URL]. |
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