Yuji Yahagi
Shibaura Institute of Technology
Refereed Journal Publications
  1. Yahagi, Y., Flame stability of a Micro Can-type Afterburner for a SOFC, Proceedings of the 2008 ASME International Mechanical Engineering Congress & Exposition, 2008.11. (In printing)
  2. Yahagi, Y., and Onuma, S., Flame Structure Behind a Baffle Plate with a Central Opposite Fuel Jets, Abstract of Works in Progress Posters the 32nd Symposium (International) on Combustion, The Combustion Institute, 2008.8.
  3. Yahagi, Y., Kaminishi, R., Yokoyama, T., and Tsunekawa, T., Quenching Recovery Mechanism of Turbulent Premixed and Diffusion Combined Flames, Abstract of Works in Progress Posters the 32nd Symposium (International) on Combustion, The Combustion Institute, 2008.8.
  4. 栗田英一郎、矢作裕司、並列配置された二つの高温加熱円柱後流に形成される渦構造、日本機械学会論文集(B編)74巻 743号 pp.1600-1608, (2008-7).
  5. Yahagi, Y., Tsunekawa, T, and Yokoyama, T., Local Quenching and Recovery Phenomena of Turbulent Premixed and Non-premixed combined Flames in an Opposite Flow, Proceedings of Spring Meeting of the Western States Section of the Combustion Institute, The Combustion Institute, pp. 1-10, 2008.3.
  6. Yahagi,Y., Yokoyama, T., Nakaza, H., and Tsunekawa, T., Extinction Phenomena of Premixed and Non-premixed combined Flames in an Opposite Turbulent Flow, The Fourth International Conference on Flow Dynamics, pp. 1-18, 2007.9.
  7. Yahagi, Y., and Katahara, K., Local Flame Structure and Extinction of Turbulent Methane Non-premixed Flames Impinging with Ultra Lean Premixed Gas, The proceedings of the 6th Pacific Symposium on Flow Visualization and Image Processing, pp1-6, 2007-5.
  8. Yahagi, Y., Sekiguti, M., Suzuki, K., Flow structure and flame stability in an opposite flow micro can combustor with a baffle plate, The proceedings of 5th US National Combustion Meeting, pp.1-8, 2007.3.
  9. Yahagi, Y., Sekiguti, M., Suzuki, K., Flow Structure and Flame Stability in a Micro Can Combustor with a Baffle plate, Applied Thermal Engineering, vol.27,pp.788-794, 2007.
  10. Yahagi, Y., Shibuya, H., and Suzuki, K., Flow Structure and Flame Stability in a Micro Can Combustor with a Baffle plate, ASMEATI2006, Energy: production, distribution and conservation, Vol.2, pp.933-942, 2006-5.
  11. 浜津邦仁、矢作裕司、竹内正雄、中原伸悟、酸化剤予熱と理論混合分率の変化が対向流CH4-02-Ar拡散火炎の消炎に与える影響、日本機械学会論文集(B編)72巻 716号 pp.1052-1059, (2006-4).
  12. Yahagi, Y., and Katahara, K., Time Series Analysis for Local Flame Structure of Turbulent Lean Premixed Flame with Different Mixture Concentration, Proceedings of Works in Progress Posters the 31st Symposium (International) on Combustion, The Combustion Institute, 2006.8.
  13. Yahagi, Y., Sekigushi, M., and Suzuki, K., Flame Structure and Stability in a Micro Can Combustor with a Baffle Plate, Proceedings of Works in Progress Posters the 31st Symposium (International) on Combustion, The Combustion Institute, 2006.8
  14. Yahagi, Y., Shibuya, H., and Suzuki, K., Flow Structure in a Micro Can Combustor with a Baffle plate, Proceedings of Fourth Mediterranean Combustion Symposium, CD-R, 2005-10.
  15. Hamatsu, K., Takeuchi, M., and Yahagi, Y., Effects of Dilution Gas Species on Extinction and Structure of CH4 –O2 Counter-flowing Diffusion Flame, Proceedings of Works in Progress Posters the 30th Symposium (International) on Combustion, The Combustion Institute, p.14, 2004.7.
  16. Yahagi, Y., Nakahara, S., Hamatsu, K., and Takeuchi, M., Effects of Dilution and Oxidizer Preheating on the Extinction and Structure of CH4-O2-Ar Counter Flowing Diffusion Flames, Proceedings of The Second Joint Meeting of the U.S. Sections of the Combustion Institute, pp. 1-7, (CD-R), 2003.3.
  17. Takeuchi, M., Hamatsu, K., Yahagi, Y., and Nakahara, S., Effects of Oxidizer Preheating and Dilution on the Extinction and Structure of CH4-O2-Ar Counter Flowing Diffusion Flames, Proceedings of Works in Progress Posters the 29th Symposium (International) on Combustion, The Combustion Institute, p.357, 2002.7.
  18. Yahagi, Y. and Sugawara, N., Extinction and Structure of Unequal Lean Premixed Flames Formed in Opposite Turbulent Flow, Proceedings of Works in Progress Posters the 29th Symposium (International) on Combustion, The Combustion Institute, p.14, 2002.7.
  19. Yahagi, Y., and Nihei, H., Extinction and Flame Front Behavior of Ultra Lean Premixed Flame Formed in Opposite Flow, Jpn. Soc. Mech. Eng., (in Japanese), Vol.68, No.668, pp.1287-1294, (2002).
  20. Hamatsu, K., Yahagi, Y., Takeuchi, M., Effects of Ultra Lean Premixed Gas on Extinction of Lean Premixed Flame, Jpn. Soc. Mech. Eng., (in Japanese), Vol.67, No.657, pp.1058-1064, (2001).
  21. Yahagi, Y., Yoshino, S., Vortex Structure behind a Highly Heated Cylinder in Turbulent Crossflow, Jpn. Soc. Mech. Eng., (in Japanese), Vol.67, No.657, pp. 1219-1226, (2001).
  22. Yahagi, Y., Takeuchi, M.、Extinction and Structure of Ultra Lean Premixed Flame formed in Opposite Flow, Jpn. Soc. Mech. Eng., (in Japanese), Vol.65,No.631,pp.1108-1114, (1999).
  23. Yahagi, Y., Structure of a Two-Dimensional Vortex Behind a Highly Heated Cylinder, Heat Transfer-Asian Research, 28 (8), pp. 706-718, (1999).
  24. Ueda, T., Tsuchiya, Y., Mizomoto, M., and Yahagi, Y., Time Series Analysis of Flame Motion of Turbulent Premixed Flames in a Wall Stagnating Flow, Combustion Science and Technology (Japanese edition), Vol. 6 (Supplement), pp. 113-124, (1998).
  25. Yahagi, Y., Structure of Two Dimensional Vortex behind a Highly Heated Cylinder, Jpn. Soc. Mech. Eng., (in Japanese), Vol.64, No.622, pp.1825-1831, (1998).
  26. Yahagi, Y., Ueda, T., and Mizomoto, M., Local Quenching Phenomena Lean Turbulent Premixed Flame formed in a Wall Stagnation Flow, Jpn. Soc. Mech. Eng., (in Japanese), Vol.63,No.616,pp.4076-4082, (1997).
  27. Yahagi, Y., Ueda, T., and Mizomoto, M., Interaction of a Non-Adiabatic Wall and Local Quenching Process of Lean Turbulent Premixed Flame, 15th International Colloquium on the Dynamics of Explosions and Reactive System, (1995), pp.114-117.
  28. Ueda, T., Yahagi, Y., and Mizomoto, M., Experimental Study on the Extinction of a Wrinkled Laminar Flame Formed in a Stagnation Flow, Turbulence and Molecular Processes in Combustion, pp.327-338 (1993), Elsevier Science Publishers B. V..
  29. Yahagi, Y., Ueda, T., and Mizomoto, M., Flame Curvature and Flame Speed of Turbulent Premixed Flame in a Stagnation Point Flow, Progress in Astronautics and Aeronautics, Vol. 152, Dynamics of Heterogeneous Combustion and Reacting Systems, (1992), pp.25-36.
  30. Yahagi, Y., Ueda, T., and Mizomoto, M., Extinction of Lean Propane/Air Turbulent Premixed Flames in a Stagnation Point Flow, JSME International Journal Series Ⅱ, Vol.35, No.2, pp.304-309 (1992).
  31. Yahagi, Y., Ueda, T., and Mizomoto, M., Extinction Mechanism of Lean Methane/Air Turbulent Premixed Flame in a Stagnation Flow, Twenty-Fourth Symposium (International) on Combustion, The Combustion Institute, pp.537-542 (1992).
  32. Yahagi, Y., Ueda, T., and Mizomoto, M., Extinction Mechanism of Lean Premixed Flames in a Laminar Stagnation Point Flow, Jpn. Soc. Mech. Eng., (in Japanese), Vol.58,No.553,pp.2878-2883 (1992).
  33. Ueda, T., Yahagi, Y., and Mizomoto, M., Mie Scattering with Silicon Oil Droplets in Combustion Field,Jpn. Soc. Mech. Eng., (in Japanese), Vol.57,No.541,pp.3255-3259 (1991).
  34. Yahagi, Y., Ueda, T., and Mizomoto, M., Extinction of Lean Propane air Turbulent Premixed Flames in a Stagnation Point Flow, Jpn. Soc. Mech. Eng., (in Japanese), Vol.57,No.540, pp.2798-2803 (1991).
Technical Paper and Repot in the Shibaura Institute of Technology
  1. Yahagi, Y., Extinction Mechanism of Lean Laminar Premixed Flames Formed in a wall Stagnation Flow, Report of Research Laboratory of Engineering Shibaura Institute of Technology, Vol. 10, pp. 95-103, (1995).
  2. Yahagi, Y., Cooled Wall Interaction of a Turbulent Premixed Flame, The Research Report of Shibaura Institute of Technology Natural Sciences and Engineering, Vol. 39, No. 2 , pp.11-19, (1995).
Presentations

  1. Yahagi, Y., Ueda, T., and Mizomoto, M., A Study of Turbulent Premixed Flames in a Stagnation Point Flow, Part 1 Effects of Turbulence on Flame Extinction, Proceedings of the 27th Japanese Symposium on Combustion, pp.359-361 (1989).
  2. Yahagi, Y., Ueda, T., and Mizomoto, M., A Study of Turbulent Premixed Flames in a Stagnation Point Flow, Part 2 Lewis Number Effects on Flame Extinction, Proceedings of the 28th Japanese Symposium on Combustion, pp.61-63 (1990).
  3. Ueda, T., Yahagi, Y., and Mizomoto, M., A Study of Laminar Premixed Flames in a Stagnation Point Flow, Part 1 Relationship of Flame Stretch and Heat Loss, Proceedings of the 29th Japanese Symposium on Combustion, pp.265-267 (1991).
  4. Ueda, T., Yahagi, Y., and Mizomoto, M., Flame Curvature and Flame Speed of Turbulent Premixed Flame in a Stagnation Point Flow, Abstract of XI the International Workshop on Mathematical Methods in Combustion, pp.45-46 (1991).
  5. Yahagi, Y., Ueda, T., and Mizomoto, M., Flame Curvature and Flame Speed of Turbulent Premixed Flame in a Stagnation Point Flow, Abstract of 13th International Colloquium on Dynamics of Explosions and Reactive Systems, p.157 (1991).
  6. Yahagi, Y., Ueda, T., and Mizomoto, M., A Study of Turbulent Premixed Flames in a Stagnation Point Flow, Part 3 Influences of Flame Front Curvature, Proceedings of the 27th Japanese Symposium on Combustion, pp43-45 (1991).
  7. Yahagi, Y., Ueda, T., and Mizomoto, M., Extinction Mechanism of Lean Methane/Air Turbulent Premixed Flame in a Stagnation Flow, Abstract of 24th Symposium (International) on Combustion, The Combustion Institute, pp.33-34 (1992).
  8. Yahagi, Y., Ueda, T., and Mizomoto, M., A Study of Turbulent Premixed Flames in a Stagnation Point Flow, Part 4 Extinction Mechanism duo to Heat Loss, Proceedings of the 30th Japanese Symposium on Combustion, pp.217-219 (1992).
  9. Yahagi, Y., Ueda, T., and Mizomoto, M., Flame Front Curvature of Wrinkled Laminar Flame in a Stagnation Point Flow, Proceedings of the 70th JSME Spring Annual Meeting, Part Ⅱ, pp773-775, (1993)
  10. Yahagi, Y., Ueda, T., and Mizomoto, M., A Study of Turbulent Premixed Flames in a Stagnation Point Flow, Part 5 Flame Front Structure, Proceedings of the 31st Japanese Symposium on Combustion, pp.416-418, (1993).
  11. Yahagi, Y., Ueda, T., and Mizomoto, M., Extinction Mechanism of Lean Methane/Air Turbulent Premixed Flame in a Stagnation Flow, Abstract of Works in Progress Posters the 25th Symposium (International) on Combustion, The Combustion Institute, p.169, (1994).
  12. Hamashima, M., Yahagi, Y., Ueda, T., and Mizomoto, M., A Study of Turbulent Premixed Flames in a Stagnation Point Flow, Part 6 Local Extinction Phenomena, Proceedings of the 32nd Japanese Symposium on Combustion, pp.261-263 (1994).
  13. Yahagi, Y., Ueda, T., and Mizomoto, M., Interaction of a Non-Adiabatic Wall and Local Quenching Process of Lean Turbulent Premixed Flame, 15th International Colloquium on the Dynamics of Explosions and Reactive System, (1995), pp.114-117.
  14. Hamashima, M., Yahagi, Y., Ueda, T., and Mizomoto, M., and Mizomoto, M., A Study of Turbulent Premixed Flames in a Stagnation Point Flow, Part 7, Proceedings of the 33rd Japanese Symposium on Combustion, pp.517-519 (1995)
  15. Yahagi, Y., Takeuchi, M., and Konno, J., Extinction of Lean Premixed Flames interact with High Temperature Gas Seat, Proceedings of the 34th Japanese Symposium on Combustion, pp. 249-251, (1996)
  16. Tsutiya, K., Ueda, T., Yahagi, Y., and Mizomoto, M., A Study of Turbulent Premixed Flames in a Stagnation Point Flow, Part 8, Proceedings of the 34th Japanese Symposium on Combustion, pp.107-109, (1996)
  17. Yahagi, Y. Extinction Mechanism of Lean Turbulent Premixed Flames in Cooled Wall Stagnating Flow, Invited Lecture, Thermal Fluid Seminar, 1997
  18. Ueda, T., Yahagi, Y., Tutiya, K., and Mizomoto, M., Time Series Analysis on Flamelet Motion of Turbulent Premixed Flame in a Wall Stagnation Flow, International Workshop on Turbulent Reacting Flow, (1997)
  19. Tsutiya, K., Ueda, T., Yahagi, Y., and Mizomoto, M., A Study of Turbulent Premixed Flames in a Stagnation Point Flow, Part 9, Proceedings of the 35th Japanese Symposium on Combustion, pp.253-255, (1997)
  20. Yahagi, Y., Takeuchi, M., and Konno, J., Extinction and Structure of Ultra Lean Premixed Flames in a Counter Flow, Proceedings of the 35th Japanese Symposium on Combustion, pp. 347-349, (1997)
  21. Makino, I., and Yahagi, Y., Flame spread over Liquid fuel beds, Proceedings of the 35th Japanese Symposium on Combustion, pp. 687-689, (1997)
  22. Yahagi, Y., Karman Vortex Structure behind a Highly Heated Cylinder, Proceedings of the 35th Japanese Symposium on Combustion, Vol. 1, pp.369-370, (1998)
  23. Yahagi, Y., and Takeuchi, M., Extinction Characteristic of Lean Premixed Flames with Unequal Burning Intensity, Proceedings of the 7th Japan Institute of Energy Annual Meeting, pp.83-86, (1998)
  24. Takeuchi, M., and Yahagi, Y., Interaction of Premixed Flames with Unequal Burning Intensity, Proceedings of the 36th Japanese Symposium on Combustion, pp. 650-652, (1998)
  25. Yahagi, Y., Ueda, T., Mizomoto, M., and Tsutiya, K., A Study of Turbulent Premixed Flames in a Stagnation Point Flow, Part 10, Proceedings of the 36th Japanese Symposium on Combustion, pp. 16-18, (1998)
  26. Hamatsu, K., Takeuchi, M., and Yahagi, Y., Extinction Mechanism and Structure of Super Lean Premixed Flames formed in a Opposite-flow, Proceedings of the 37th Japanese Symposium on Combustion, pp. 227-228, 1999.12.9
  27. Hamatsu, K., Takeuchi, M., and Yahagi, Y., Extinction Mechanism and Structure of Super Lean Premixed Flames formed in a Opposite-flow, 6th JSME Conference in Kanto, (in Japanese) pp.141-142, 2000.3.16
  28. Takeuchi, M., and Yahagi, Y., Effect of Ultra Lean Premixed Gas on the Extinction of Lean Premixed Flame, Abstract of Works in Progress Posters the 28th Symposium (International) on Combustion, The Combustion Institute, p.14, 2000.7.
  29. Takeuchi, M., and Yahagi, Y., Extinction and Structure of Interacting Lean and Ultra Lean Premixed Flames Formed in Opposite Flow, XXII Task Leaders Meeting of the IEA Implementing Agreement Energy Conservation and Emissions Reduction in Combustion, 2000.8.
  30. Yoshino, S., and Yahagi, Y., Karman Vortex Structure behind a Highly Heated Cylinder in Turbulent Crossflow, 37th National Heat Transfer Symposium of Japan, Vol. Ⅲ, pp. 857-858, 2000.6
  31. Nihei, H., and Yahagi, Y., Extinction and Structure of Turbulent Premixed Flames with Unequal Mixture Concentrations in an Opposite Flow, Proceedings of the 38th Japanese Symposium on Combustion, pp. 13-14, 2000.11.
  32. Hamatsu, K., Takeuchi, M., and Yahagi, Y., Extinction Mechanism and Structure of Diffusion Flame using Hot Burned Gas, Proceedings of the 38th Japanese Symposium on Combustion, pp. 47-48, 2000.11.
  33. Nakahara, S., Hamatsu, K., Yahagi, Y., and Takeuchi, M., Extinction and Structure of Methane Diffusion Flame Impinging High Temperature Oxidizer, Proceedings of the 38th Japanese Symposium on Combustion, pp. 145-146, 2000.11.
  34. Nakahara, S., Yahagi, Y., Takeuchi, M., and Hamatsu, K., Effect of Fuel Dilution and Oxidizer Heating on the Extinction of Counterflow Diffusion Flame, 7th JSME Conference in Kanto, (in Japanese) pp. 407-408, 2001.3.
  35. Yahagi, Y., and Nihei, H., Extinction Behavior and Structure of Ultra Lean Premixed Flame Formed in Opposite Turbulent Flow, Proceedings of The Second Joint Meeting of the U.S. Sections of the Combustion Institute, pp. 1-7, (CD-R), 2001.3.
  36. Takeuchi, M., Hamatsu, K., Nakahara, S., and Yahagi, Y., Extinction and Structure of Counterflow Diffusion Flame with Oxidizer Flow diluted by Combustion Gas, Proceedings of The 10th Annual Meeting of Japan Institute of Energy, pp279-282, 2001, 7
  37. Nakahara, S., Yahagi, Y., Takeuchi, M., and Hamatsu, K., Effect of Oxidizer Heating on Extinction and Structure of Counterflow Diffusion Flame, Proceedings of the 39th Japanese Symposium on Combustion, pp.189-190, 2001.11.
  38. Hamatsu, K., Takeuchi, M., Yahagi, Y., and Nakahara, S., Effect of Dilute Gas on the Extinction of Counterflow Diffusion Flame with Oxidizer Heating, Proceedings of the 39th Japanese Symposium on Combustion, pp.287-288, 2001.11.
  39. Yoshida, S., and Yahagi, Y., Paul. D. Ronney, Characteristics of Combustion nearby Flammability Limit in an Ultra Low Velocity Flow, Proceedings of the 39th Japanese Symposium on Combustion, pp.289-290, 2001.11.
  40. Yahagi, Y., and Sugawara, N., PIV Analyze of Lean Turbulent Premixed Flames impinging with Reactive Free Surface, Proceedings of the 39th Japanese Symposium on Combustion, pp.301-302, 2001.11.
  41. Yahagi, Y., and Takayama, M., Extinction Phenomena of Lean Turbulent Premixed Flames impinging with Reactive Free Surface, Proceedings of the 39th Japanese Symposium on Combustion, pp.321-322, 2001.11.
  42. Nakahara, S., Yahagi, Y., Takeuchi, M., and Hamatsu, K., Effect of Oxidizer Heating on the Extinction of Counterflow Diffusion Flame, Mechanical Engineering Congress, 2001 Japan, pp.375-376, 2001.8.
  43. Hamatsu, K., Takeuchi, M., and Yahagi, Y., Effect of Inert Gas Dilution on the Extinction of Counterflow Diffusion Flame with Oxidizer Heating, Mechanical Engineering Congress, 2001 Japan, pp.377-378, 2001.8.
  44. Yoshida, S., Yahagi, Y., and Paul. D. Ronney, Extinction of Lean Premixed Flame in an Ultra Low Velocity Field, Mechanical Engineering Congress, 2001 Japan, pp.379-380, 2001.8.
  45. Yoshida, S., Yahagi, Y., and Paul. D. Ronney, Stabilization Mechanism of a Premixed Gas Flame Near flammability Limit Formed in Series Circular Tubes, 8th JSME Conference in Kanto, (in Japanese) pp.481-482(2002.3)
  46. Sugawara, N., and Yahagi, Y., Aero-Dynamic Structure of Unequal Turbulence Opposite Impinging Flows, 8th JSME Conference in Kanto, (in Japanese) pp.509-510 (2002.3)
  47. Yahagi, Y. and Sugawara, N., Extinction and Structure of Unequal Lean Premixed Flames Formed in Opposite Turbulent Flow, Abstract of Works in Progress Posters the 29th Symposium (International) on Combustion, The Combustion Institute, p.200, 2002.7.
  48. Takeuchi, M., Hamatsu, K., Yahagi, Y., and Nakahara, S., Effects of Oxidizer Preheating and Dilution on the Extinction and Structure of CH4-O2-Ar Counterflowing Diffusion Flames, Abstract of Works in Progress Posters the 29th Symposium (International) on Combustion, The Combustion Institute, p.357, 2002.7.
  49. Yahagi, Y., Sugawara, N., and Takeuchi, M., Structure of Lean Turbulent Premixed Flames impinging with Unequal Turbulence Opposite, Proceedings of The 80th Anniversary Meeting of Japan Institute of Energy, pp268-269, 2002, 8
  50. Hamatsu, K., Takeuchi, M., and Yahagi, Y., Effect of Oxidizer heating and Stoichiometric Mixture Fraction on the Extinction of Counterflowing Diffusion Flames, Proceedings of The 80th Anniversary Meeting of Japan Institute of Energy, pp270-271, 2002, 8
  51. 菅原紀輝、矢作裕司、反応性自由表面に衝突する希薄乱流予混合火炎の構造、第40回燃焼シンポジウム講演論文集、pp.9-10, 2002.12.
  52. 浜津邦仁、竹内正雄、矢作裕司、CH4-O2-CO2対向流拡散火炎の消炎に及ぼすCO2の影響、第40回燃焼シンポジウム講演論文集、pp.463-464, 2002.12.
  53. 浜津邦仁、竹内正雄、矢作裕司、予熱した酸化剤が対向流拡散火炎の消炎と構造に与える影響 (濃度変化による火炎位置と酸化剤予熱の影響の関係)、第41回燃焼シンポジウム講演論文集、pp.13-14, 2003.12.
  54. 矢作裕司,鶴見昌弘,境界制御を用いた円管内を伝播する予混合火炎の特性,第42回燃焼シンポジウム講演論文集、pp.5-6, 2004.12.
  55. 浜津邦仁,竹内正雄,矢作裕司,河原田陽介,火炎位置の変化が部分予混合火炎の消炎に与える影響,第42回燃焼シンポジウム講演論文集、pp.143-144, 2004.12.
  56. 片原啓祐,矢作裕司,乱れの異なる衝突流火炎の流体力学的特性,日本機械学会関東支部第11期総会講演会講演論文集,pp.31-32,2005.3.
  57. 櫻井仁、片原啓祐、矢作裕司、異なる希薄予混合気濃度における局所乱流火炎構造の時系列解析、2005年度日本機械学会年次大会講演論文集、pp.65-66, 2005.9.22.
  58. 矢作裕司、渋谷英之、鈴木健二郎、バッフル板を用いたマイクロガスタービン用燃焼器内の流体力学特性、第43回燃焼シンポジウム講演論文集、pp.168-169, 2005.12.
  59. 栗田英一郎、矢作裕司、並列配置された二つの高温加熱円柱後流に形成される渦構造、第43回日本伝熱シンポジウム講演論文集、Vol.1, pp.89-90、2006-5.
  60. 室井昌貴、矢作英雄,矢作裕司,境界層制御による可燃限界近傍の火炎安定化,日本機械学会熱工学コンファレンス2006講演論文集,pp.327-328,2006.11.
  61. 片原啓祐,矢作裕司,希薄予混合火炎に衝突する窒素希釈メタン乱流火炎の構造,日本機械学会熱工学コンファレンス2006講演論文集,pp.329-330,2006.11.
  62. 関口将基,矢作裕司,鈴木健二郎,バッフル板後流に形成される火炎の安定性と流体力学的特性、第44回燃焼シンポジウム講演論文集、pp. 244-245, 2006.12.
  63. 矢作英雄,室井昌貴,矢作裕司,境界層コントロールを用いた下方伝播予混合火炎の消炎と構造、第44回燃焼シンポジウム講演論文集、pp.198-199, 2006.12.
  64. 片原啓祐,矢作裕司,希薄予混合火炎に衝突する窒素希釈メタン乱流火炎の消炎と構造、第44回燃焼シンポジウム講演論文集、pp.236-237, 2006.12.
  65. 栗田英一郎、矢作裕司、並列配置された高温加熱円柱から放出される渦の干渉、日本機械学会熱工学コンファレンス2007講演論文集,pp.361 -362,2007.11.
  66. 高崎純、関口将基、矢作裕司、バッフル板に衝突する噴流火炎の安定性と構造、第45回燃焼シンポジウム講演論文集, pp.308-309, 2007.12.
  67. 仲座宏典,矢作裕司,希薄予混合火炎に衝突する拡散火炎の消炎と構造,第45回燃焼シンポジウム講演論文集, pp.132-133, 2007.12.
  68. 横山岳寛,矢作裕司,予混合拡散複合燃焼場における乱れが局所的消炎機構に及ぼす影響,第45回燃焼シンポジウム講演論文集, pp.354-355, 2007.12.
Review

  1. Yahagi, Y., Annual Energy Reviews 1994, Combustion Theory, Gas Combustion, Journal of Japan Institute of Energy, pp.575-577, 1995.
  2. Yahagi, Y., Annual Energy Reviews 1995, Combustion Theory, Gas Combustion, Journal of Japan Institute of Energy, pp.605-608, 1996.
  3. Yahagi, Y., Annual Energy Reviews 1996, Combustion Theory, Gas Combustion, Journal of Japan Institute of Energy, pp.681-683, 1997.
  4. Yahagi, Y., Annual Energy Reviews 1997, Combustion Theory, Gas Combustion, Journal of Japan Institute of Energy, pp.684-687, 1998.
  5. Yahagi, Y., Annual Energy Reviews 1998, Combustion Theory, Gas Combustion, Journal of Japan Institute of Energy, vol. 78, No. 867, pp.581-584, 1999.
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RESEARCH SPONSORSHIP
Past funding history
TitleSponsorDateTotal Amount
Local Quenching Phenomena Lean Turbulent Premixed FlameSaneyoshi Scholarship Foundation1994\500,000
Interaction of a Non-Adiabatic Wall and Local Quenching Process of Lean Turbulent Premixed FlameTEPCO Scholarship Foundation1995\350,000
Local Quenching of Wall Stagnation Turbulent Premixed FlamesA grant-in aid for scientific research of the ministry of education1995\900,000
Ignition Mechanism of Lean Premixed FlamesA grant-in aid for scientific research of the ministry of education1996\1,100,000
Extinction Mechanism of Ultra Lean Turbulent Premixed FlamesA grant-in aid for scientific research of the ministry of education1997\1,800,000
Extinction Mechanism of Ultra Lean Turbulent Premixed Flames Part 2A grant-in aid for scientific research of the ministry of education1998\300,000
Time Series Analyze of Ultra Lean Turbulent Premixed Flames Impinging with Reactive Free SurfaceA grant-in aid for scientific research of the ministry of education2000\1,800,000
Time Series Analyze of Ultra Lean Turbulent Premixed Flames Impinging with Reactive Free Surface (Part2)A grant-in aid for scientific research of the ministry of education2001\500,000
Extinction and Local Structure of Hybrid Methane Turbulent Non-premixed Flames In a High Temperature Oxidizer A grant-in aid for scientific research of the ministry of education2002\2,500,000
高温低酸素酸化剤中におけるメタン水素ハイブリッド乱流燃焼特性A grant-in aid for scientific research of the ministry of education2004\2,300,000
高温低酸素酸化剤中におけるメタン水素ハイブリッド乱流燃焼特性A grant-in aid for scientific research of the ministry of education2005\700,000
高温低酸素酸化剤中におけるメタン水素ハイブリッド乱流燃焼特性A grant-in aid for scientific research of the ministry of education2006\700,000