黒瀬良一

プロフィール

黒瀬良一
教授
専門 熱流体工学
研究分野 燃焼[詳細] 、乱流、混相流
電話 075-383-3654
e-mail kurose@mech.kyoto-u.ac.jp
 

略歴

学歴:

平成元年 3月 福岡県立東筑高等学校卒業
平成元年 4月 九州大学工学部化学機械工学科入学
平成5年 3月 同上卒業
平成5年 4月 九州大学大学院工学研究科化学機械工学専攻修士課程入学
平成7年 3月 同上修了
平成7年 4月 九州大学大学院工学研究科化学機械工学専攻博士後期課程進学
平成10 3月 同上修了 博士(工学)取得

職歴:

平成10年 4月 (財)電力中央研究所横須賀研究所 研究員を経て主任研究員
平成16年 4月 (財)電力中央研究所エネルギー技術研究所 主任研究員
平成18年 3月 同上 退職
平成18年 4月 京都大学大学院工学研究科機械理工学専攻 助教授
平成19年 4月 京都大学大学院工学研究科機械理工学専攻 准教授
平成29年 7月 京都大学大学院工学研究科機械理工学専攻 教授
    現在に至る

その他、客員、併任など:

平成7年 4月 平成10年 3月 日本学術振興会 特別研究員 (DC1)
平成13年 4月 平成16年 3月 群馬大学大学院工学研究科 客員助教授
平成16年 2月 平成17年 1月 Center for Turbulence Research, Stanford University/NASA Ames(米国), Senior Visiting Fellow
平成20年 4月 平成27年 3月 独立行政法人 国立環境研究所 共同研究員
平成18年 4月 財団法人 電力中央研究所 協力研究員
平成24年 4月 東京大学生産技術研究所 研究員
平成24年 10月 独立行政法人 理化学研究所 客員研究員
平成26年 4月 独立行政法人 宇宙航空研究開発機構(JAXA) 客員研究員

主な論文

  1. R. N. Roy, M. Muto, R. Kurose,
    “Direct numerical simulation of ignition of syngas (H2/CO) mixtures with temperature and composition stratifications relevant to HCCI conditions”,
    International Journal of Hydrogen Energy,accepted.
  2. N. Takagaki, S. Komori, M. Ishida, K. Iwano, R. Kurose, N. Suzuki,
    “Loop-type wave-generation method for generating wind waves under long-fetch conditions",
    Journal of Atmospheric and Oceanic Technology, accepted.
  3. A. Kishimoto, H. Moriai, K. Takenaka, T. Nishiie, M. Adachi, A. Ogawara, R. Kurose,
    “Application of a non-adiabatic flamelet/progress-variable approach to Large Eddy Simulation of H2/O2 combustion under a pressurized condition”,
    Journal of Heat Transfer, 139, 124501 (4 pages) (2017).
    [Online version]
  4. K. Takata, R. Kurose,
    “Influence of density flow on treated water turbidity in a sedimentation basin with inclined plate settler",
    Water Science & Technology, 17, 1140-1148 (2017).
    [Online version]
  5. T. Kitano, H. Iida, R. Kurose,
    “Effect of chemical reactions of H2/O2 combustion gas on heat transfer on a wall in a turbulent channel flow",
    Journal of Heat Transfer, Vol.139, 044501 (2017).
    [Online version]
  6. N. Hashimoto, H. Watanabe, R. Kurose, H. Shirai,
    “Effect of different fuel NO models on the prediction of NO formation/reduction characteristics in a pulverized coal combustion field",
    Energy, Vol.118, pp.47-59 (2017).
    [Online version]
  7. M. Muto, K. Yuasa, R. Kurose,
    “Numerical simulation of ignition in pulverized coal combustion with detailed chemical reaction mechanism"
    Fuel, Vol.190, pp.136-144 (2017).
    [Online version]
  8. N. Takagaki, R. Kurose, A. Kimura, S. Komori,
    “Effect of Schmidt number on mass transfer across a sheared gas-liquid interface in a wind-driven turbulence",
    Scientific Reports, Vol.6, 37059, doi:10.1038/srep37059 (2016).
    [Online version]
  9. N. Takagaki, S. Komori, N. Suzuki, K. Iwano, R. Kurose,
    “Mechanism of drag coefficient saturation at strong wind speeds",
    Geophysical Research Letters, Vol.43, doi:10.1002/2016GL070666 (2016).
    [Online version ]
  10. R. Kurose, N. Takagaki, A. Kimura, S. Komori,
    “Direct numerical simulation of turbulent heat transfer across a sheared wind-driven gas-liquid interface",
    Journal of Fluid Mechanics, Vol.804, pp.646-687 (2016).
    [Online version ]
  11. M. Muto, K. Tanno, R. Kurose,
    “A DNS study on effect of coal particle swelling due to devolatilization on pulverized coal jet flame",
    Fuel, Vol.184, pp.749-752 (2016).
    [Online version]
  12. T. Kitano, K. Kaneko, R. Kurose, S. Komori,
    “Large-eddy simulations of gas- and liquid-fueled combustion instabilities in back-step flows",
    Combustion and Flame, Vol.170, pp.63-78 (2016).
    [Online version ]
  13. K. Takata, T. Michioka, R. Kurose,
    “Prediction of visible plume from a dry and wet combined type cooling tower and its mechanism of abatement",
    Atmosphere, Vol.7, pp.59 (2016).
    [Online version]
  14. .
  15. Z. Wang, Y. Deguchi, S. Katsumori, A. Ikutomo, J. Yan, J. Liu, K. Tainaka, K. Tanno, H. Watanabe, R. Kurose,
    “Improved Measurement Characteristics of Elemental Compositions Using LaserInduced Breakdown Spectroscopy",
    Spectroscopy, Vol.31, pp.22-35 (2016).
    [Online version]
  16. T. Hara, M. Muto, T. Kitano, R. Kurose, S. Komori,
    “Direct numerical simulation of a pulverized coal jet flame employing a global volatile matter reaction scheme based on detailed reaction mechanism",
    Combustion and Flame, Vol.162, pp.4391-4407 (2015).
    [Online version]
  17. T. Kitano, T. Tsuji, R. Kurose, S. Komori,
    “Effect of pressure oscillations on flashback characteristics in a turbulent channel flow",
    Energy & Fuels, Vol.29, pp.6815-6822 (2015).
    [Online version]
  18. S. Tachibana, K. Saito, T. Yamamoto, M. Makida, T. Kitano, R. Kurose,
    “Experimental and numerical investigation of thermo-acoustic instability in a liquid-fuel aero-engine combustor at elevated pressure: validity of large-eddy simulation of spray combustion",
    Combustion and Flame, Vol.162, pp.2621-2637 (2015).
    [Online version]
  19. N. Takagaki, R. Kurose, Y. Tsujimoto, S. Komori, K. Takahashi,
    “Effects of turbulent eddies and Langmuir circulations on scalar transfer in a sheared wind-driven liquid flow",
    Physics of Fluids, Vol.27, 016603 (2015).
    [Online version]
  20. Z. Wang, Y. Deguchi, H. Watanabe, R. Kurose, J. Yan, J. Liu,
    “Improvement on quantitative measurement of fly ash contents using laser-induced breakdown spectroscopy",
    Journal of Flow Control, Measurement & Visualization, Vo.3, pp.10-21 (2015).
    [Online version]
  21. M. Muto, H. Watanabe, R. Kurose, S. Komori, S. Balusamy, S. Hochgreb,
    “Large-eddy simulation of pulverized coal jet flame -effect of oxygen concentration on NOx generation-",
    Fuel, Vol.142, pp.152-163 (2015).
    [Online version]
  22. Y. Deguchi, T. Kamimoto, Z.Z. Wang, J.J. Yan, J.P. Liu, H. Watanabe, R. Kurose,
    “Applications of laser diagnostics to thermal power plants and engines",
    Applied Thermal Engineering, Vol.73, pp.1453-1464 (2014).
    [Online version]
  23. K. Matsuda, R. Onishi, M. Hirahara, R. Kurose, K. Takahashi, S. Komori,
    “Influence of microscale turbulent droplet clustering on radar cloud observations",
    Journal of the Atmospheric Sciences, Vo.71, pp.3569-3582 (2014).
    [Online version]
  24. H. Watanabe, R. Kurose, M. Hayashi, T. Kitano, S. Komori,
    “Effects of ambient pressure and precursors on soot formation in spray flames",
    Advanced Powder Technology, Vol.25, pp.1376-1387 (2014).
    [Online version]
  25. T. Kitano, J. Nishio, R. Kurose, S. Komori,
    “Evaporation and combustion of multicomponent fuel droplets",
    Fuel, Vol.136, pp.219-225 (2014).
    [Online version]
  26. N. Takagaki, R. Kurose, Y. Baba, Y. Nakajima, S. Komori,
    “Relationship between momentum of an impinging drop and intensities of vortex rings generated below free surface",
    International Journal of Multiphase Flow, Vol.65, pp.1-10 (2014).
    [Online version]
  27. T. Kitano, J. Nishio, R. Kurose, S. Komori,
    “Effects of ambient pressure, gas temperature and combustion reaction on droplet evaporation",
    Combustion and Flame, Vol.161, pp.551-564 (2014).
    [Online version]
  28. K. Iwano, N. Takagaki, R. Kurose, S. Komori,
    “Mass transfer velocity across the breaking air-water interface at extremely high wind speeds",
    Tellus B, Vol.65, 21341 (2013).
    [Online version]
  29. [Erratum]
  30. Z. Z. Wang, Y. Deguchi, M. Kuwahara, T. Taira, X. B. Zhang, J. J. Yan, J. P. Liu, H. Watanabe, R. Kurose,
    “Quantitative elemental detection of size-segregated particles using laser-induced breakdown spectroscopy",
    Spectrochimica Acta Part B: Atomic Spectroscopy, Vol.87, pp.130-138 (2013).
    [Online version]
  31. K. Tanno, R. Kurose, T. Michioka, H. Makino, S. Komori,
    “Direct numerical simulation of flow and surface reaction in de-NOx catalyst",
    Advanced Powder Technology, Vol.24, pp.879-885 (2013).
    [Online version]
  32. H. Moriai, R. Kurose, H. Watanabe, Y. Yano, F. Akamatsu, S. Komori,
    “Large-eddy simulation of turbulent spray combustion in a subscale aircraft jet engine combustor
    - Predictions of NO and soot concentrations -",
    Journal of Engineering for Gas Turbines and Power, Vol.135, 091503 (2013).
    [Online version]
  33. T. Kitano, R. Kurose, S. Komori,
    “Effects of internal pressure and inlet velocity disturbances of air and fuel droplets on spray combustion field",
    Journal of Thermal Science and Technology, Vol.8, pp.269-280 (2013).
    [Online version]
  34. A. Fujita, H. Watanabe, R. Kurose, S. Komori,
    “Two dimensional direct numerical simulation of spray flames.
    Part 1: Effects of equivalence ratio, fuel droplet size and radiation, and validity of flamelet model",
    Fuel, Vol.104, pp.515-525 (2013).
    [Online version]
  35. T. Kitano, T. Nakatani, R. Kurose, S. Komori,
    “Two-dimensional direct numerical simulation of spray flames.
    Part 2: Effects of ambient pressure and lift, and validity of flamelet model",
    Fuel, Vol.104, pp.526-535 (2013).
    [Online version]
  36. N. Takagaki, S. Komori, N. Suzuki, K. Iwano, T. Kuramoto, S. Shimada, R. Kurose, K. Takahashi,
    “Strong correlation between the drag coefficient and the shape of the wind sea spectrum over a broad range of wind speeds",
    Geophysical Research Letters, Vol.39, L23604 (2012).
    [Online version]
  37. K. Matsuda, R. Onishi, R. Kurose, S. Komori,
    “Turbulence effect on cloud radiation",
    Physical Review Letters, Vol.108, 224502 (2012).
    [Online version]
  38. N. Hashimoto, R. Kurose, H. Shirai,
    “Numerical simulation of pulverized coal jet flame using the TDP model",
    Fuel, Vol.97, pp.277-287 (2012).
    [Online version]
  39. R. Kurose, M. Anami, A. Fujita, S. Komori,
    “Numerical simulation of flow past a heated/cooled sphere",
    Journal of Fluid Mechanics, Vol.692, pp.332-346 (2012).
    [Online version]
  40. N. Hashimoto, R. Kurose, S.-M. Hwang, H. Tsuji, H. Shirai,
    “A numerical simulation of pulverized coal combustion employing a tabulated-devolatilization-process model (TDP model)",
    Combustion and Flame, Vol.159, pp.353-366 (2012).
    [Online version]
  41. R. Kurose, N. Takagaki, T. Michioka, N. Kohno, S. Komori,
    “Subgrid scale scalar variance in high-Schmidt-number turbulence",
    AIChE Journal, Vol.58, pp.377-384 (2012)
    [Online version]
  42. J. Hayashi, H. Watanabe, R. Kurose, F. Akamatsu,
    “Effects of fuel droplet size on soot formation in spray flames formed in a laminar counterflow",
    Combustion and Flame, Vol.158, pp.2559-2568 (2011).
    [Online version]
  43. S. Komori, R. Kurose, N. Takagaki, S. Ohtsubo, K. Iwano, K. Handa and S. Shimada,
    “Sensible and latent heat transfer across the air-water interface in wind-driven turbulence",
    GAS TRANSFER AT WATER SURFACES 2010 (Eds. S. Komori, W. McGillis, R. Kurose), Kyoto University Press, Kyoto, Japan, pp.78-89 (2011).
    [PDF]
  44. R. Kurose, T. Michioka, N. Kohno, S. Komori, Y. Baba,
    “Application of flamelet model to LES of turbulent reacting liquid flows",
    AIChE Journal, Vol.57, pp.911-917 (2011).
    [Online version]
  45. R. Onishi, K. Matsuda, K. Takahashi, R. Kurose, S. Komori,
    “Linear and non-linear inversion schemes to retrieve collision kernel values from droplet size distribution change",
    International Journal of Multiphase Flow, Vol.37, pp.125-135 (2011).
    [Online version]
  46. S. Komori, R. Kurose, K. Iwano, T. Ukai, N. Suzuki,
    “Direct numerical simulation of wind-driven turbulence and scalar transfer at sheared gas-liquid interfaces",
    Journal of Turbulence, Vol.11, pp.1-20 (2010).
    [Online version]
  47. A. Fujita, R. Kurose, S. Komori,
    “Experimental study on effect of relative humidity on heat transfer of an evaporating water droplet in air flow",
    International Journal of Multiphase Flow, Vol.36, pp.244-247 (2010).
    [Online version]
  48. K. Tanno, H. Makino, R. Kurose, S. Komori, S.-M. Hwang, H. Shimada,
    “Effect of turbulent to laminar flow transition on degradation of de-NOx catalyst",
    Fuel, Vol.89, pp.855-858 (2010).
    [Online version]
  49. R. Kurose, A. Fujita, S. Komori,
    “Effect of relative humidity on heat transfer across the surface of an evaporating water droplet in air flow",
    Journal of Fluid Mechanics, Vol.624, pp.57-67 (2009).
    [Online version] *
  50. H. Watanabe, R. Kurose, S. Komori,
    “Large-eddy simulation of swirling flows in a pulverized coal combustion furnace with a complex burner",
    Journal of Environment and Engineering, Vol.4, pp.1-11 (2009).
    [Online version]
  51. R. Onishi, K. Matsuda, K. Takahashi, R. Kurose, S. Komori,
    “Retrieval of collision kernels from the change of droplet size distributions with linear inversion",
    Physica Scripta, T132, 014050 (2008).
    [Online version]
  52. Y. Baba, R. Kurose,
    “Flamelet characteristics of gaseous and spray lifted flames on two-dimensional direct numerical simulations",
    Journal of Fluid Science and Technology, Vol.3, pp.846-856 (2008).
    [Online version]
  53. T. Michioka, R. Kurose,
    "Large-Eddy Simulation of Particle Diffusion in a Particle-laden Swirling Jet",
    Journal of Fluid Science and Technology, Vol.3, pp.610-621 (2008).
    [Online version]
  54. Y. Baba, R. Kurose,
    “Analysis and flamelet modeling for spray combustion",
    Journal of Fluid Mechanics, Vol.612, pp.45-79 (2008).
    [Online version]
  55. R. Kurose, T. Imashiro, S. Komori,
    “The effects of swell on turbulence over wavy walls",
    International Journal of Heat and Fluid Flow, Vol.29, pp.774-782 (2008).
    [Online version]
  56. H. Watanabe, R. Kurose, S. Komori, H. Pitsch,
    “Effects of radiation on spray flame characteristics and soot formation",
    Combustion and Flame, Vol.152, pp.2-13 (2008).
    [Online version]
  57. N. Hashimoto, R. Kurose, H. Tsuji, H. Shirai,
    “A numerical analysis of pulverized coal combustion in a multiburner Furnace",
    Energy & Fuels, Vol.21, pp.1950-1958 (2007).
    [Online version]
  58. H. Watanabe, R. Kurose, H.-S. Hwang, F. Akamatsu,
    “Characteristics of flamelet in spray flames formed in a laminar counterflow",
    Combustion and Flame, Vol.148, pp.234-248 (2007).
    [Online version]
  59. R. Kurose, H. Makino, N. Hashimoto, A. Suzuki,
    “Formation mechanism of particulate matter in coal combustion",
    Powder Technology, Vol.172, pp.50-56 (2007).
    [Online version]
  60. M. Nakamura, F. Akamatsu, R. Kurose, M. Katsuki,
    “Combustion mechanism of liquid fuel spray in gaseous flame",
    Physics of Fluids, Vol.17, 123301 (2005).
    [Online version]
  61. T. Michioka, R. Kurose, K. Sada, H. Makino,
    “Direct numerical simulation of particle-laden mixing layer with a chemical reaction",
    International Journal of Multiphase Flow, Vol.31, pp.843-866 (2005).
    [Online version]
  62. S. M. Hwang, R. Kurose, F. Akamatsu, H. Tsuji, H. Makino, M. Katsuki,
    “Application of optical diagnostics techniques to laboratory-scale turbulent pulverized coal flame",
    Energy & Fuels, Vol.19, pp.382-392 (2005).
    [Online version]
  63. R. Kurose, H. Makino, H. Matsuda, A. Suzuki,
    “Application of percolation model to ash formation process in coal combustion",
    Energy & Fuels, Vol.18, pp.1077-1086 (2004).
    [Online version]
  64. R. Kurose, M. Ikeda, H. Makino, M. Kimoto, T. Miyazaki,
    “Pulverized coal combustion characteristics of high fuel ratio coals",
    Fuel, Vol.83, pp.1177-1785 (2004).
    [Online version]
  65. R. Kurose, H. Makino, A. Suzuki,
    “Numerical analysis of pulverized coal combustion characteristics using advanced low-NOx burner",
    Fuel, Vol.83, pp.693-703 (2004).
    [Online version]
  66. M. Hata, M. Furuuchi, C. Kanaoka, R. Kurose, H. Makino,
    “Observation of dust release behavior from ceramic filter elements",
    Advanced Powder Technology, Vol.14, pp.719-734 (2003).
    [Online version]
  67. R. Kurose, H. Makino, M. Hata, C. Kanaoka,
    “Numerical analysis of a flow passing through a ceramic candle filter on jet pulse cleaning",
    Advanced Powder Technology, Vol.14, pp.735-748 (2003).
    [Online version]
  68. R. Kurose, H. Matsuda, H. Makino, A. Suzuki,
    “Characteristics of particulate matter generated in pressurized coal combustion for high efficiency power generation system",
    Advanced Powder Technology, Vol.14, pp.673-694 (2003).
    [Online version]
  69. R. Kurose, H. Makino,
    “Large-eddy simulation of a solid-fuel jet flame",
    Combustion and Flame, Vol.135, pp.1-16 (2003).
    [Online version]
  70. R. Kurose, H. Makino, S. Komori, M. Nakamura, F. Akamatsu, M. Katsuki,
    “Effects of outflow from the surface of a sphere on drag, shear lift, and scalar diffusion",
    Physics of Fluids, Vol.15, pp.2338-2351 (2003).
    [Online version] *
  71. R. Kurose, H. Makino, T. Michioka, S. Komori,
    “Large eddy simulation of a nonpremixed turbulent reacting mixing layer: effects of heat release and spanwise fluid shear",
    Combustion and Flame, Vol.127, pp.2159-2165 (2001).
    [Online version]
  72. R. Kurose, H. Makino, S. Komori,
    “Particle trajectory in turbulent boundary layer at high particle Reynolds number",
    ASME Journal of Fluids Engineering, Vol.123, pp.956-958 (2001).
    [Online version]
  73. R. Kurose, M. Ikeda, H. Makino,
    “Combustion characteristics of high ash coal in a pulverized coal combustion",
    Fuel, Vol.80, pp.1447-1455 (2001).
    [Online version]
  74. R. Kurose, H. Tsuji, H. Makino,
    “Effects of moisture in coal on pulverized coal combustion characteristics",
    Fuel, Vol.80, pp.1457-1465 (2001).
    [Online version]
  75. R. Kurose, R. Misumi, S. Komori,
    “Drag and lift forces acting on a spherical bubble in a linear shear flow",
    International Journal of Multiphase Flow, Vol.27, pp.1247-1258 (2001).
    [Online version]
  76. R. Kurose, S. Komori,
    “Turbulence structure over a particle roughness",
    International Journal of Multiphase Flow, Vol.27, pp.673-683 (2001).
    [Online version]
  77. R. Kurose, S. Komori,
    “Drag and lift forces on a rotating sphere in a linear shear flow",
    Journal of Fluid Mechanics, Vol.384, pp.183-206 (1999).
    [Online version] *

* Corrigenda are available. Please contact "kurose@mech.kyoto-u.ac.jp".

[その他(機械学会論文集、国際会議プロシーディングなど)]


受賞

平成12年 日本機械学会
奨励賞
研究題目「一様せん断流中の固体粒子と気泡に働く抗力と揚力の評価の研究」
平成14年 日本燃焼学会「美しい炎」
写真展最優秀作品賞
題目「乱流微粉炭燃焼火炎」 (黒瀬良一, 黄承敏, 赤松史光, 牧野尚夫, 香月正司 共著)
平成17年 The Best Paper Award, The 6th International Symposium & Exhibition on Gas Cleaning at High Temperatures, Paper Title "Application of percolation model to particulate matter formation in pressurized coal combustion" by R. Kurose, H. Makino, N. Hashimoto, A. Suzuki
平成18年 APT Distinguished Paper Award, The Society of Powder Technology, Japan, Paper Title "Characteristics of particulate matter generated in pressurized coal combustion for high-efficiency power generation system" by R. Kurose, H. Matsuda, H. Makino, A. Suzuki
平成20年 日本機械学会熱工学部門
講演論文表彰
論文題目「ガスおよび噴霧浮き上がり火炎における火炎片の特性」 (馬場雄也, 黒瀬良一 共著)
平成20年 日本流体力学会
論文賞
論文題目「Drag and Lift Forces on a Rotating Sphere in a Linear Shear Flow (Journal of Fluid Mechanics, Vol.384, pp.183-206, 1999)」 (黒瀬良一, 小森 悟 共著)
平成20年 化学工学会熱工学部会
部会賞
研究題目「粒子昇温速度を考慮した揮発分放出モデル(TDP model)を用いた微粉炭燃焼場の数値計算」 (橋本望,黄承敏,黒瀬良一,辻博文,白井裕三 共著)
平成20年 日本燃焼学会
奨励賞
研究題目「混相燃焼機構の解明とモデリングに関する研究」
平成22年 科学技術分野文部科学大臣表彰
若手科学者賞
研究題目「分散系混相乱流機構の解明とモデリングの研究」
平成24年 粉体工学会秋季研究発表会
技術賞
研究題目「数値シミュレーションによるハニカム型脱硝触媒の劣化特性評価」 (丹野賢二,道岡武信,牧野尚夫,黒瀬良一,小森 悟 共著)
平成24年 第26回数値流体力学シンポジウムのベストCFDグラフィックスアワード 最優秀賞 題目「雲のレーダ観測に及ぼす乱流の影響」 (松田景吾,大西 領,高橋佳子,黒瀬良一,小森 悟 共著)
平成25年 日本燃焼学会 論文賞 論文題目「Effects of fuel droplet size on soot formation in spray flames formed in a laminar counterflow (Combustion and Flame, Vol.158, pp.2559-2568, 2012)」 (林 潤,渡邊裕章,黒瀬良一,赤松史光 共著)
平成26年 粉体工学情報センター
学術奨励賞(IP奨励賞)
研究内容「乱流中における粉粒体挙動の解明とモデリングに関する研究」
平成27年 日本燃焼学会 論文賞 論文題目「Experimental and numerical investigation of thermo-acoustic instability in a liquid-fuel aero-engine combustor at elevated pressure: validity of large-eddy simulation of spray combustion (Combustion and Flame, Vol.162, pp.2621-2637, 2015)」 (立花 繁, 齋藤欣也, 山本 武, 牧田光正, 北野智朗, 黒瀬良一 共著)
平成28年 コージェネレーション・エネルギー高度利用センター コーエネ大賞 特別賞(技術開発部門) 研究題目「コージェネレーション向けガスタービン燃焼器高性能化のための非定常燃焼解析技術の開発」 (川崎重工業,北海道大学,京都大学 共同研究)

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