2024年1月31日更新

査読付き論文

  1. Yamazaki, T., Yasuda, D., Yamazaki, S., Matsugi, D., Matsuoka, T., and Nakamura, Y., "Effect of pyrolysis reaction kinetics modified by adding inorganics on flame spread of cellulose ", Fire Safety Journal, Vol. 145  (2024. 5), 104107.
  2. Zhang, Y., Matsuoka, T., amd Nakamura, Y., "Experimental study on flame spreading over locally wetted thin combustibles", Combustion and Flame, Vol. 261 (2024. 3), 113319.
  3. 矢田晴也,岡田亮紀,松木大輝,山崎拓也,中村祐二,”淀み点流れ場を用いた固気ハイブリッド燃焼における燃焼促進効果に対する実験的検討”,日本機械学会論文集,Vol. 90, No. 929 (2024. 1).
  4. 松木大輝,中村祐二,"小型木材クリブによる熱源モデル化",日本火災学会論文集,Vol. 73, No.3, (2023.12), pp.1-7.
  5. Tagami (Kanada), N., Kondo, C., Matsuoka, T., Nakamura, Y., and Ida, T., "Combustion characteristics of biocoke with added Al powder in oxygen-enriched atmosphere", Fuel, Vol. 350 (2023. 7), 128788.
  6. Matsugi, D., Yamazaki, T., Matsuoka, T., and Nakamura, Y., "Study of Inverse H2O2-Droplet Combustion", Combustion and Flame, Vol. 253 (2023.7), 112782 (DOI:  https://doi.org/10.1016/j.combustflame.2023.112782).
  7. Darwish, A.A., Akafuah, N., Forthofer, J., Fuchihata, M., Hirasawa, T., Kuwana, K., Nakamura, Y., Sekimoto, K., Saito, K., amd William, F.A., "Large-scale Fire Whirl and Forest Fire Disasters: Awareness, Implications, and The Need for Developing Preventative Methods", Front. Mech. Eng., Vol.9, 1045542 (2023.1), (DOI: 10.3389/fmech.2023.1045542).
  8. Ju, X., Bunkwang, A., Yamazaki, T., Matsuoka, T., and Nakamura, Y., "Flame Flickering Can Cease under Normal Gravity and Atmospheric Pressure in a Horizontally Moving Dual Burner System", Physical Review Applied, Vol.19, No.1 (2023.1) eid 014060 (DOI: 10.1103/PhysRevApplied.19.014060).
  9. Inthavideth, X., Sekishita, N., Phommanchanh, S., and Nakamura, Y., "Scale Modeling of an Appearance of Downwash Pattern of Hot-smoke ejected from Chimney in the Turbulent Cross Flow", Progress in Scale Modeling, an International Journal, Vol. 3, Issue 1 (2022.9) Article 03-01-04, pp.1-10. (DOI: https://doi.org/10.13023/psmij.2022.03-01-04)
  10. Ju, X., Mizuno, M., Matsuoka, T., Yamazaki, T., Kuwana, K., and Nakamura, Y., "Effect of Circulation on Flame Heights over Liquid Fuel Pools", Combustion and Flame, Vol.246 (2022.11) 112435 (https://doi.org/10.1016/j.combustflame.2022.112435).
  11. Matsuoka, T., Chiba, Y., Okuno, S., Torikai, H., Bhattacharjee, S., Yamazaki, T., and Nakamura, Y., "Opposed Flame Spread over Folded PMMA Plate with Various Internal Angles", Proc. Combust. Inst., Vol.39 (2022.7) (https://doi.org/10.1016/j.proci.2022.07.153)
  12. Matsuoka, T., Takagi, A., Katagiri, Y., and Nakamura, Y., "Three-dimensional Image Reconstruction of a Thermoplastic Rod Burning with and without Melting", Combustion and Flame, Vol.242 (2022.8) 112199 (DOI: https://doi.org/10.1016/j.combustflame.2022.112199).
  13. 深谷司,中村祐二,"ベンチスケール試験によるケーブル垂直トレイ試験結果の推定法",日本火災学会論文集,Vol. 71, No.1, (2021.4), pp.1-7.
  14. Inthavideth, X., Sekishita, N., Phommanchanh, S., and Nakamura, Y., "Experimental Study on the Effect of Turbulence on Hot-smoke Dispersion ejecting in a Turbulent Cross Flow", Journal of Thermal Science and Technology, Vol. 17, No. 1 (2022.1), paper_ID 21-00296, (DOI: https://doi.org/10.1299/jtst.21-00296).
  15. Ju, X., Shiino, K., Matsuoka, T., Yamazaki, T., and Nakamura, Y., "Scale Model Experiments of Fire Whirls over the Non-Fuel Zone around an L-Shaped Fire Source", Combustion and Flame, Vol. 238, (2022.4), 111930 (DOI: https://doi.org/10.1016/j.combustflame.2021.111930).
  16. Matsuoka, T., Murakami, S., Yamazaki, T., and Nakamura, Y., "Symmetric and Nonsymmetric Flame Spread between Parallel Plates of Thick Combustible Solid", Combustion Science and Technology, Vol.193, Issue 13 (2021), pp.2175-2193 (DOI: https://doi.org/10.1080/00102202.2018.1534838).
  17. Matsuoka, T., Nishihara, T., Matsugi, D., Derrick, P., Matsuyama, K., and Nakamura, Y., "Necessary Condition for Measurement of Heat Flux Sensor using a Thermoelectric Module", Fire Safety Journal, Vol.125 (2021), 103427, (DOI: https://doi.org/10.1016/j.firesaf.2021.103427).
  18. Ju, X., Matsuoka, T., Yamazaki, T., and Nakamura, Y., "Effect of Single-Layer Metal Wire Mesh Insertion on Burning Behavior of Laminar Coflow Propane/Air Diffusion Flames", Combustion and Flame, Vol. 234 (2021), 11612, (DOI: https://doi.org/10.1016/j.combustflame.2021.111612).
  19. Matsugi, D., Hasebe, D., Yamazaki, T., Matsuoka, T., and Nakamura, Y., "Experimental Investigation of Burning Characteristics of Porous Combustible soaked in Liquid Oxidizer", Journal of Thermal Science and Technology, Vol.16, No.3, Paper No.21-00160 (2021.8), (DOI: https://doi.org/10.1299/jtst.2021jtst0036).
  20. Singh, S., and Nakamura, Y., "A Numerical Study of Dripping on the Ignitability of A Vertically Oriented Thermoplastic Material Locally Heated by An Irradiation Source", Fire Technology, Vol.58, (2021.5), pp.75-105, (DOI: https://doi.org/10.1007/s10694-021-01137-7).
  21. Kim, W., Saeki, R., Dobashi, R., Endo, T., Kuwana, K., Mogi, T., Lee, M., Mikami, M., and Nakamura, Y., "Research on Risk of Dust Explosions in Microgravity for Lunar and Planetary Exploration", International Journal of Microgravity Science and Application, Vol.38 No.2, article 380204 (2021.4), (DOI: https://doi.org/10.15011/jasma.38.380204).
  22. Matsugi, D., Matsuoka, T., and Nakamura, Y., "Study of Successive-burning Characteristics of Porous Combustible soaked in Liquid Oxidizer", Combustion and Flame, Vol. 233 (2021), 11571, (DOI: https://doi.org/10.1016/j.combustflame.2021.111571).
  23. Yamazaki, T., Matsuoka, T., Kuwana, K., and Nakamura, Y., "Study on the Flaming-Transition Behavior of a Downwardly Smoldering Biomass Stick utilizing Low Pressure", Proc. Combust. Inst., Vol.38, issue 3, pp.5073-5080 (2021). (DOI: https://doi.org/10.1016/j.proci.2020.07.100).
  24. Kadowaki, O., Suzuki, M., Kuwana, K., Nakamura, Y., and Kushida, G., "Limit Conditions of Smoldering Spread in Counterflow Configuration: Extinction and Smoldering-to-flaming Transition", Proc. Combust. Inst., Vol.38, issue 3, pp.5005-5013, (2021). (DOI: https://doi.org/10.1016/j.proci.2020.05.002).
  25. Gao, J., Qi, X., Zhang, D., Matsuoka, T., and Nakamura, Y., "Propagation of Glowing Combustion Front in A Packed Bed of Activated Carbon Particles and The Role of CO Oxidation", Proc. Combust. Inst., Vol.38, issue 3, pp.5023-5032 (2021). (DOI: https://doi.org/10.1016/j.proci.2020.05.041).
  26. Iga, Y., Kuwana, K., Sekimoto, K., and Nakamura, Y., "Open-field Scale-model Experiments of Fire Whirls over L-shaped Line Fires", Progress in Scale Modeling, an International Journal, Vol. 2, Issue 2, Article 7 (2021.2), pp.1-7 (DOI: https://doi.org/10.13023/psmij.2021.02-02-07).
  27. Gao, J., Matsuoka, T., and Nakamura, Y., "Scale Model Test to Estimate Thermal Damage by Fire in Aircraft Cargo", Progress in Scale Modeling, an International Journal, Vol. 2, Issue 2, Article 5 (2021.2), pp.1-6 (DOI: https://doi.org/10.13023/psmij.2021.02-02-05).
  28. Matsuoka, T., Nakashima, K., Kamijyo, T., Yoshimasa, A., and Nakamura, Y., "Fingering Behavior of Flame Spread over Solid Combustibles", Progress in Scale Modeling, an International Journal, Vol. 2, Issue 2, Article 1 (2021.2), pp.1-6 (DOI: https://doi.org/10.13023/psmij.2021.02-02-01).
  29. 深谷 司,中村祐二,"ケーブル被覆材料の燃焼挙動解析への誤差関数の適用",電気設備学会 論文誌,Vol.41 No.2, pp.11-18 (2021.1).
  30. Bunkwang, A., Matsuoka, T., and Nakamura, Y., "Similarity of Dynamic Behavior of Buoyant Single and Twin Jet-Flame(s)", Journal of Thermal Science and Technology, Vol.15, No.3, p.JTST0028 (2020.9), DOI: 10.1299/jtst.2020jtst0028.
  31. 山崎貴史,松岡常吉,横山博史,中村祐二,"スピーカー音場が拡散火炎に与える影響に関する実験的研究",日本機械学会論文集,Vol.86 No.889 (2020.9), No.20-00210 DOI: 10.1299/transjsme.20-00210.
  32. Nakashima, T., Matsuoka, T., and Nakamura, Y., "A Strategy to Predict the Global Warming Gas from Stock Farming -Potential Scaling Law of the Released Methane from Livestock-", Progress in Scale Modeling, an International Journal, Vol. 1, Article 10 (2020), pp.1-7 (DOI: https://doi.org/10.13023/psmij.2020.10).
  33. Bunkwang, A., Matsuoka, T., and Nakamura, Y., "Mode Transition of Interacting Buoyant Non-premixed Flames", Journal of Thermal Science and Technology, Vol.15, No.1, p.JTST0003 (2020.2), DOI: 10.1299/jtst.2020jtst0003.
  34. Sakamoto, S., Matsuoka, T., and Nakamura, Y., "Effective Thermal Design Concept of Sabatier Reactor by Controlling Catalyst Distribution Profile", Catalysis Letters, DOI: 10.1007/s10562-020-03195-y.
  35. Huang, X., and Nakamura, Y., "A Review of Fundamental Combustion Phenomena in Wire Fires", Fire Technology (invited review article), Vol.56 No.1, pp.315-360 (2020.1). DOI: 10.1007/s10694-019-00918-5.
  36. Migita, T., Yamahata, T., Strempfl, P., Matsuoka, T., and Nakamura, Y., "Methodology to Achieve Pseudo 1-D Combustion System of Polymeric Materials using Low-pressured Technique", Fire Technology (Special Issue; Spacecraft Fire Safety), Vol.56 No.1, pp.229-245 (2020.1). DOI: 10.1007/s10694-019-00877-x.
  37. Yamazaki, T., Matsuoka, T., Li, Y., and Nakamura, Y., "Applicability of Pressure Modeling to Investigate A Smoldering Behavior under Microgravity", Fire Technology (Special Issue; Spacecraft Fire Safety), Vol.56 No.1, pp.209-228 (2020.1). DOI: 10.1007/s10694-019-00911-y.
  38. Matsuoka, T., Yoshimasa, A., Masuda, M., and Nakamura, Y., "Study on Fingering Pattern of Spreading Flame over Non-charring Solid in a Narrow Space", Fire Technology (Special Issue; Spacecraft Fire Safety), Vol.56 No.1, pp.271-286 (2020.1). DOI: 10.1007/s10694-019-00865-1.
  39. Nakamura, Y., Usuki, T., and Wakatsuki, K., "Novel Fire Extinguisher Method using Vacuuming Force applicable to Space Habitats", Fire Technology (Special Issue; Spacecraft Fire Safety), Vol.56 No.1, pp.361-384 (2020.1). DOI: 10.1007/s10694-019-00854-4.
  40. 藤川俊秀,白岩寛之,柳田佳輝,東利樹,松岡常吉,中村祐二,江頭竜,"模型実験による競技用車両車体に働く抗力の測定と流れ場の可視化",実験力学,Vol.19(3) (2019.10), pp.188-194.
  41. Chanphavong, L., Zainal, Z. A., Matsuoka, T., and Nakamura, Y., "Simulation of Biomass Producer Gas Flameless Combustion with Fresh Reactant diluted by Hot Flue Gas", International Journal of Energy Research, Vol.42 Issue 10, (2018.8), pp.3218-3227.
  42. Yamazaki, T., Matsuoka, T., and Nakamura, Y., "Near-extinction Behavior of Smoldering Combustion under Highly-vacuumed Environment", Proc. Combust. Inst., Vol.37 (2019), pp.4083-4090 (DOI: 10.1016/j.proci.2018.06.200).
  43. Matsuoka, T., Nakashima, K., Yamazaki, T., and Nakamura, Y., "Geometrical Effect of Narrow Channel on Flame Spread in an Opposed Flow", Combustion Science and Technology, Vol.190 issue 3, (2017.10), https://doi.org/10.1080/00102202.2017.1394848
  44. 中村祐二,鳥飼宏之,尾川義雄,大谷英雄,佐藤研二,土橋 律,辻 佳子,広田正之,吉川昭光,三上 賢,長谷川晃一,廖 赤虹,斎藤 直,"粉末消火器を用いた消火実験に基づく初期消火に関する防災教育に関する検討",環境と安全,Vol.8 No.3, (2017.12), pp.101-111.
  45. 平沢太郎,松岡常吉,中村祐二,"微小径ステンレス管および銅管バーナ上に形成されるメタン拡散マイクロフレームの加熱特性",実験力学,Vol.17 No.4 (2017.12) pp.320-325.
  46. 松岡常吉,中條雄,平沢太郎,中村祐二,"マイクロフレームの形状評価に基づくバーナ先端温度の推定",実験力学,Vol.17 No.3 (2017.9) pp.210-216.
  47. 松岡常吉,小池悠太,中村祐二,"燃焼により変形する固体の外面形状のその場抽出方法",実験力学,Vol.17 No.3 (2017.9) pp.191-197.
  48. Hirota, M., Nakamura, Y., and Saito, T., "Soot Control of Laminar Jet-Diffusion Lifted Flame Excited by High-Frequency Acoustic Oscillation", Journal of Thermal Science and Technology, Vol.12 No.2 (2017.9), JTST0024.
  49. 梅田良人,山下博史,安里勝雄,中村祐二,"対向流火炎によるメタン・水素混合気の燃焼特性の評価",日本燃焼学会誌,Vol.60 No.191 (2018.2) pp.53-64.(日本燃焼学会論文賞)
    松岡常吉,村上智志,山崎拓也,中村祐二,"可燃性固体からなる狭流路内で発現する非対称な燃え拡がり",日本機械学会論文集,Vol.83 No.852 (2017.8), paper#: 17-00009.
  50. Matsuoka, T., Yamazaki, T., and Nakamura, Y., "High-speed Imaging of Temporal Thermal Field in Thermoplastic Material during Flame Spread", Proc. SPIE (The International Society for Optical Engineering), http://dx.doi.org/10.1117/12.2270460.
  51. Nakamura, Y., Gao, J., and Matsuoka, T., "Progress in Small-scale Combustion", Bulletin of the JSME, Journal of Thermal Science and Technology (review article), Vol.12 No.1 (2017.1), Paper No.16-00620 (DOI: 10.1299/jtst.2017jtst0001).
  52. Matsuoka, T., Kamei, K., Nakamura, Y., and Nagata, H., "Modified Regression Formula of PMMA Combustion by A Single Plane Impinging Jet", International Journal of Aerospace Engineering, Volume 2017, Article ID 6485757, 9 pages (https://doi.org/10.1155/2017/6485757).
  53. Matsuoka, T., Nakashima, K., Yamazaki, T., and Nakamura, Y., "Geometrical Effect of Narrow Channel on Flame Spread in an Opposed Flow", Combustion Science and Technology, Vol.190 issue 3, (2017.10), https://doi.org/10.1080/00102202.2017.1394848.
  54. 望月慧介,松岡常吉,中村祐二,"フリッカリングする火炎の相互干渉に関する研究",日本火災学会論文集, 第67巻 第2号,(2017.8) , pp.21-29.
  55. Gao, J., Hossain, A., Matsuoka, T., and Nakamura, Y., "A Numerical Study on Heat-recirculation assisted Combustion for Small Scale Jet Diffusion Flames at Near-extinction Condition", Combustion and Flame, Vol.178 (2017.2), pp.182-194.
  56. Matsuoka, T., Nakashima, K., Nakamura, Y., and Noda, S., "Appearance of Flamelets Spreading over Thermally Thick Fuel", Proc. Combust. Inst., Vol.36, issue 2, (2017.2), pp.3019-3026.
  57. Gao, J., Hossain, A., and Nakamura, Y., "Flame Base Structures of Micro-jet Hydrogen/Methane Diffusion Flames", Proc. Combust. Inst., Vol.36, (2017.2), pp.4209-4216.
  58. Sugamura, Y., Hosogai, A., and Nakamura, Y., "Effect of Ambient Oxygen Concentration on Heating Performance of Chemical Igniter used in NASA-STD-6001B/ISO-TS16697", The ISTS Special Issue of Transactions of JSASS, Aerospace Technology Japan, Vol.14, No.ists30, (2016.12), pp. Pw_7-Pw_14.
  59. Kuwana, K., Kato, S., Kosugi, A., Hirasawa, T., and Nakamura, Y., "Experimental and Theoretical Study on the Interaction between Two Identical Micro-slot Diffusion Flames: Burner Pitch Effects", Combustion and Flame, Vol.165, (2016.2), pp.346-353.
  60. Gao, J., and Nakamura, Y., "Low-temperature Ignition of Dimethyl Ether: Transition from Cool Flame to Hot flame Promoted by Decomposition of HPMF (HO2CH2OCHO)", Combustion and Flame, Vol.165, (2016.2), pp.68-82.
  61. Roy, N.C., and Nakamura, Y., "Investigation of Unsteady Behaviors of Forward and Opposed Flow Combustion of Solid Fuel", Combustion and Flame, Vol.163 (2016.1), pp.517-532.
  62. Nakamura, Y., Kizawa, K., Mizuguchi, S., Hosogai, A., and Wakatsuki, K., "Experimental Study on Near-limiting Burning Behavior of Thermoplastic Materials with Various Thicknesses under Candle-like Burning Configuration", Fire Technology, Vol.52 No.4, (2016.5), pp.1107-1131.
  63. Nakamura, Y., and Endo, S., "Power Generation Performance of Direct Flame Fuel Cell (DFFC) impinged by Small-jet Flames", Journal of Micromechanics and Microengineering, Vol.25 (2015.7) 104015(doi:10.1088/0960-1317/25/10/104015).
  64. Terakawa, K., Saito, T., Nakamura, Y., Matsuoka, T., Nagata, H., Totani, T., and Wakita, M., "Effect of Combustion Pressure on Regression Rate of Solid Fuel under an Impinging Oxidizer Jet Counterflow Diffusion Flame", Bulletin of the JSME (Journal of Thermal Science and Technology), Vol.9 No.2 (2014.8), DOI:10.1299/jtst.2014jtst0010.
  65. Hirasawa, T., Sato, N., and Nakamura, Y., "Exhaust Gas Characteristics of Methane Clustered Microflames Established on 3 x 3 Array of Micro Burners", Journal of the Japanese Society for Experimental Mechanics (2014 Special Issue), Vol.14 (2014.9), pp.s67-s70.
  66. Bhattacharjee, S., Tran, W., Laue, M., Paolini, C., and Nakamura, Y., "Experimental Validation of a Correlation Capturing the Boundary Layer Effect on Spread Rate in the Kinetic Regime of Opposed-Flow Flame Spread", Proc. Combust. Inst., Vol.35 issue 3, (2015.1), pp.2631-2638.
  67. Kim, Y.K., Hossain, A., and Nakamura, Y., "Numerical Modeling of Melting and Dripping Process of Polymeric Material subjected to Moving Heat Flux: Prediction of Drop Time", Proc. Combust. Inst., Vol.35 issue 3 (2015.1), pp.2555-2562.
  68. Hossain, A., and Nakamura, Y., "Thermal and Chemical Structures formed in the Micro Burner of Miniaturized Hydrogen-air Jet Flames", Proc. Combust. Inst., Vol.35 issue 3 (2015.1), pp.3413-3420.
  69. Nakamura, Y., and Sekimoto, K., "Conceptual Design of Small Partial-G Test Facility: Slope-Sliding Method", The ISTS Special Issue of Transactions of JSASS, Aerospace Technology Japan, Vol.12, No. ists29 (2014.12), pp.Th_35-Th_41.
  70. Kuwana, K., Hirawsawa, T., and Nakamura, Y., "Interaction between Two Identical Micro-slot Diffusion Flames", Theoretical and Applied Mechanics Japan, Vol.61 (2014.6), pp.193-199.
  71. Bhattacharjee, S., Nagarkar, R., and Nakamura, Y., "A Correlation for an Effective Flow Velocity For Capturing the Boundary Layer Effect in Opposed-Flow Flame Spread over Thin Fuels", Combustion Science and Technology, Vol.186, issue 8 (2014.6), pp.975-987.
  72. Roy, N.C., Hossain, A., and Nakamura, Y., "A Universal Model of Opposed Flow Combustion of Solid Fuel over an Inert Porous Medium", Combustion and Flame, Vol.161 (2014.6), pp.1645-1658.
  73. Hossain, A., and Nakamura, Y., "A Numerical Study on the Ability to Predict the Heat Release Rate using CH* Chemiluminescence in Non-sooting Counterflow Diffusion Flames", Combustion and Flame, Vol.161 (2014.1), pp.162-172.
  74. Nakamura, Y., Wakatsuki, K., and Hosogai, A., "Scale Modeling of Space Fire", Journal of the Japanese Society for Experimental Mechanics (2013 Special Issue), Vol.13 (2013.7), pp.s69-s74.