Junichi Kitajima
Kawasaki Heavy Industries
35 Papers
189 Citations
Junichi Kitajima is an academic researcher from Kawasaki Heavy Industries. The author has contributed to research in topics: Combustor & Combustion. The author has an hindex of 9, co-authored 34 publications.
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Papers
Numerical and Experimental Characterization of Low NOx Micromix Combustion Principle for Industrial Hydrogen Gas Turbine Applications
H. H.-W. Funke,S. Boerner,J. Keinz,Karsten Kusterer,D. Kroniger,Junichi Kitajima,Masahide Kazari,Atsushi Horikawa +7 more
- 11 Jun 2012
TL;DR: In this article, the authors present an experimental analysis of the momentum flux ratio's impact on flame anchoring and on the resultant formation of NOx-emissions, which shows that the resultant positioning and anchoring of the micro flames highly influences the NOx formation.
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Experimental and numerical study on optimizing the dln micromix hydrogen combustion principle for industrial gas turbine applications
H. H.-W. Funke,J. Keinz,Karsten Kusterer,A. Haj Ayed,Masahide Kazari,Junichi Kitajima,Atsushi Horikawa,Kunio Okada +7 more
- 15 Jun 2015
TL;DR: In this paper, the authors present an advanced DLN Micromix hydrogen application with a significantly reduced number of enlarged fuel injectors with high thermal power output at constant energy density, while the experimental and numerical results confirm the successful application of high energy injectors, under part load conditions and under off-design operation.
23
Patent
Gas turbine plant
Harada Hidekazu,Junichi Kitajima,Kenji Mori,Yasutoshi Shiyouji,Kazuo Tanaka,Yamashita Seiji,潤一 北嶋,英一 原田,誠二 山下,恭敏 庄司,建二 森,一雄 田中 +11 more
- 04 Nov 2005
TL;DR: In this article, a regenerator of a regenerative type gas turbine 84 and a boiler 78 are arranged in parallel, and a waste heat boiler 78 of a water, steam injection gas turbine is operated under variable pressures and made to be thermoelectric variable.
20
Patent
Burner for gas turbine and gas turbine combustion system using the same
Shinichi Kajita,Takekiyo Kimura,Junichi Kitajima,Shinichi Oga,Masahiro Ogata,潤一 北嶋,信一 大賀,武清 木村,眞市 梶田,正裕 緒方 +9 more
- 01 Feb 1995
TL;DR: In this paper, the first and second burning areas in a combustion chamber were formed by a plurality of first burners 19a, 19h for forming a first burning area 11a, 11b at the same position of the combustion chamber 11 in the axial central direction at the upstream side of the chamber 11.
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