Kyushu University [Osamu Moriue (Professor) Faculty of Engineering, Department of Mechanical Engineering]

Osamu Moriue

Last modified date：2024.04.26

Professor / Combustion / Department of Mechanical Engineering / Faculty of Engineering

Papers

1.	Kazuki HARADA, Shion ANDO, Yuya ITO, Yuzo KAWASOE, Hideki HASHIMOTO and Osamu MORIUE Study on promotion of lean combustion by oxygen enrichment using a rapid compression expansion machine (in Japanese) Transactions of the JSME (in Japanese), 87 (900), 2021.
2.	Shion Ando, Kei Shimada, Daijiro Eto, Osamu Moriue, Experimental Investigation of Cool Flame Behavior of Isolated n-Decane/Ethanol Droplet under Microgravity, Microgravity Science and Technology, https://doi.org/10.1007/s12217-021-09893-5, 33, 54, 2021.08.
3.	Masanori SAITO, Yurie OHNO, Hirotaka KATO, Yusuke SUGANUMA, Akiyo TAKAHASHI, Masato MIKAMI, Masao KIKUCHI, Takehiko ISHIKAWA, Yuko INATOMI, Kenichi TAKAHASHI, Osamu MORIUE, Hiroshi NOMURA, and Mitsuaki TANABE, Numerical Prediction of the Spontaneous Ignition of Cool Flame for the Microgravity Experiment by Using Sounding Rocket, Transactions of the Japan Society for Aeronautical and Space Sciences, Aerospace Technology Japan, 10.2322/tastj.19.539, 19, 4, 539-544, 2021.07.
4.	Mitsuaki TANABE, Masanori SAITO, Yusuke SUGANUMA, Masato MIKAMI, Masao KIKUCHI, Yuko INATOMI, Osamu MORIUE and Hiroshi NOMURA, Scope of PHOENIX-2 Sounding Rocket Experiment, "Cool Flame Dynamics in Multi-droplet Ignition", International Journal of Microgravity Science and Application, 10.15011/jasma.37.4.370401, 37, 4, 370401-1-370401-9, 2020.10.
5.	Masanori SAITO, Yurie OHNO, Hirotaka KATO, Yusuke SUGANUMA, Masato MIKAMI, Masao KIKUCHI, Yuko INATOMI, Takehiko ISHIKAWA, Osamu MORIUE, Hiroshi NOMURA and Mitsuaki TANABE, Spontaneous Ignition Behavior of n-Decane Fuel Droplet Array near Ignition Limit, International Journal of Microgravity Science and Application, 10.15011/jasma.36.360205, 36, 2, 360205–1-360205–8, 2019.04.
6.	Yasuko Yoshida, Kentaro Iwai, Kentaro Nagata, Takehiko Seo, Masato Mikami, Osamu Moriue, Tetsuya Sakashita, Masao Kikuchi, Takuma Suzuki, Masaki Nokura, Flame-spread limit from interactive burning droplets in microgravity, Proceedings of the Combustion Institute, 10.1016/j.proci.2018.07.106, 37, 3, 3409-3416, 2019.01, This research conducted microgravity experiments on the flame spread over droplet-cloud elements with strong droplet interaction aboard Kibo on the ISS. The droplet-cloud element represents a local droplet pattern appearing in randomly distributed droplet clouds near the group-combustion-excitation limit and consists of small-droplet-spacing droplets and large-droplet-spacing droplets. As droplet-cloud elements, we used four n-decane droplets, Droplets C, B, A and L, placed at fiber intersections of two-dimensional SiC-fiber lattice with a 4-mm fiber interval in a combustion chamber. The flame spreads over the droplet-cloud element in order of Droplets C, B, A and L. The position of Droplet L relative to Droplet A was varied to investigate the flame-spread-limit distribution around burning Droplet A. The position of Droplet B relative to Droplet A was varied to investigate the effect of two-droplet interaction between Droplets B and A on the flame spread to Droplet L. The position of Droplet C relative to Droplet B was also varied to investigate the effect of three-droplet interaction among Droplets C, B and A. The results shows that in the case with the strong interaction by two or three interactive droplets, the high-temperature region is enlarged by the droplet interaction, centers near the center of mass of the interactive droplets and plays an important role in the flame-spread-limit distribution. Since the burning lifetime of Droplet A is finite, the flame-spread time from burning Droplet A to Droplet L is limited by burning lifetime of Droplet A and is less than 80% of the burning lifetime of Droplet A, which increases with the interactive effect. The flame-spread-limit distance from the center of mass of the interactive droplets increases with the burning lifetime..
7.	Masato MIKAMI, Hidetaka WATARI, Tsutomu HIROSE, Takehiko SEO, Herman SAPUTRO, Osamu MORIUE, Masao KIKUCHI, Flame spread of droplet-cloud elements with two-droplet interaction in microgravity, Journal of Thermal Science and Technology, https://doi.org/10.1299/jtst.2017jtst0028, 12, 2, 2017.09.
8.	Yuzo KAWASOE, Hideki HASHIMOTO, Osamu MORIUE, Eiichi MURASE Chemiluminescence spectroscopy to explore the flame temperature (in Japanese) Transactions of the JSME (in Japanese), 83 (853), 2017.
9.	Masato Mikami, Masao Kikuchi, Yuji Kan, Takehiko Seo, Hiroshi Nomura, Yusuke Suganuma, Osamu Moriue, D. L. Dietrich, Droplet Cloud Combustion Experiment “Group Combustion” in KIBO on ISS, International Journal of Microgravity Science and Application, 33, 2, 330208-1-330208-7, 2016.04.
10.	Yuichi Karatsu, Jyong-Ho Yun, Ryoji Kagawa, Shunki Minota, Hideki Hashimoto, Osamu Moriue, Eiichi Murase, Simultaneous Observation of Combustion in Optical Rotary Engine by Bottom View and Side View, 2015 JSAE/SAE Powertrains, Fuels and Lubricants International Meeting, JSAE 20159104, SAE 2015-01-1891, 2015.09.
11.	Osamu Moriue, Ryosuke Takagi, Kota Yone, Hideki Hashimoto, Eiichi Murase, Kentaro Kaneko, Hiroshi Nomura, Masao Kikuchi, Observation of Spontaneous Ignition Behavior of a Fuel Droplet Pair by Interferometry, Transactions of the Japan Society for Aeronautical and Space Sciences, Aerospace Technology Japan, http://dx.doi.org/10.2322/tastj.12.Ph_13, 12, ists29, Ph_13-Ph_17, 2014.07.
12.	Eiichi Murase, Osamu Moriue, Hideki Hashimoto, Fumihiro Nakashima, Yoshinobu Komai, A study on the direct control of the start of homogeneous charge compression ignition combustion by pulsed flame jet with rapid compression expansion machine, International Journal of ENGINE RESEARCH, 10.1177/1468087413491956, 2014.02.
13.	Eiichi MURASE, Osamu MORIUE, Hideki HASHIMOTO and Isei MATSUZAKI A Study on Equivalence-Ratio Dependence of Minimum Ignition Energy Based on Initial Burning Velocity (in Japanese) JSME Journal Series B, 79 (805), pp. 1839-1847, 2013.
14.	Osamu Moriue, Yohei NISHIYAMA, Yosuke YAMAGUCHI, Hideki Hashimoto, Eiichi Murase, Effects of Droplet Interaction on Spontaneous Ignition of an n-Decane Droplet Pair, Proceedings of the Combustion Institute, 34, pp. 1585-1592, 2013.01.
15.	Nizar Jaber, Manabu Mukai, Ryoji Kagawa, Haruki Nakakura, Osamu Moriue, Eiichi Murase, Amelioration of Combustion of Hydrogen Rotary Engine, International Journal of Automotive Engineering, Vol. 3, No. 3, pp. 81-88, 2012.08.
16.	Fumihiro Nakashima, Kazuro Hotta, Hideki Hashimoto, Osamu Moriue, Eiichi Murase Effects of Spark Discharge Mode in Pulsed Flame Jet (in Japanese) Journal of the Combustion Society of Japan, Vol. 54, No. 167, pp. 49-54, Feb. 2012.
17.	Osamu Moriue Numerical Study on Inter-Droplet Interaction in Spontaneous Ignition of Fuel Droplet Clouds (in Japanese) Journal of the Japan Society of Microgravity Application, Vol.29, No. 1, pp. 32-39, Jan. 2012.
18.	E. MURASE, O. MORIUE, K. HOTTA, F. NAKASHIMA, Polytropic Pressure Analysis of HCCI Combustion Initiated by Pulsed Flame Jet, Archivum Combustionis (The Journal of the Thermodynamics and Combustion Committee of the Polish Academy of Sciences), Vol. 31, No. 3, pp. 167-175, 2011.10.
19.	Osamu Moriue, Yosuke Yamaguchi, Daijiro Eto, Takuro Emura, Amirrudin bin Jaafar, Eiichi Murase, Spontaneous Ignition of a Droplet Pair in Microgravity, Transactions of the Japan Society for Aeronautical and Space Sciences, Aerospace Technology Japan, Vol. 8, No. ists27, pp. Ph_15-Ph_18, 2010.10.
20.	Nobunori OKUI, Yoshitomo TAKAHASHI, Ryoji KAGAWA, Michihiko TABATA, Osamu MORIUE, Eiichi MURASE, Ignition and Combustion of Rotary Engine - Effect of spark-plug arrangement on flame propagation -, Review of Automotive Engineering, Vol.30, No.4, pp. 379-385, 2009.10.
21.	Osamu Moriue, Daijiro Eto, Kei Shimada, Hiroya Sahara, Eiichi Murase, Cool-Flame Behaviors of an n-Decane/Ethanol Binary-Fuel Droplet in Microgravity, Transactions of the Japan Society for Aeronautical and Space Sciences, Space Technology Japan, Vol. 7, No. ists26, pp. Ph_7-Ph_10, 2009.05.
22.	Nobunori Okui, Yoshitomo Takahashi,. Ryoji Kagawa, Michihiko Tabata, Osamu Moriue, Eiichi Murase Ignition and Combustion of Rotary Engine - Effect of Spark-plug Arrangement on Flame Propagation - (in Japanese) Transactions of Society of Automotive Engineers of Japan, Vol. 40, No. 2, pp. 319-324, March, 2009.
23.	MIKAMI, Masato, NAKAMOTO, Keita, KOJIMA, Naoya, and MORIUE Osamu Effects of Overall Equivalence Ratio on Flame Structure of Rich-Premixed n-Decane Spray Jet (in Japanese) Journal of the Combustion Society of Japan, Vol. 50, No. 153, pp. 248-254, August, 2008.
24.	Osamu Moriue, Keisuke Matsuo, Eiichi Murase, Stefan Schnaubelt and Christian Eigenbrod, Verification of a Numerical Simulation Model of Fuel Droplet Ignition through Microgravity Experiments and its Further Application, Journal of The Japan Society of Microgravity Application, Vol. 24, No. 3, pp. 251-254, 2007.08.
25.	Eiichi Murase, Osamu Moriue, Kunihiko Hanada, Takeshi Miyaura and Jun Ikeda Chemiluminescence Spectral Analysis and Photographic Observation in Homogeneous Charge Compression Ignition Combustion (in Japanese) JSME Journal Series B, 72 (719), pp. 1826-1834, 2006.
26.	Osamu MORIUE, Masato MIKAMI, Naoya KOJIMA and Eiichi MURASE Numerical Simulations of Two-Stage Ignition of Fine Single Fuel Droplets in a Closed Constant-Volume Cell (in Japanese) JSME Journal Series B, 72 (713), pp. 150-155, 2006.
27.	Hiroshi OYAGI, Osamu MORIUE, Masato MIKAMI, Naoya KOJIMA and Masao KIKUCHI Effects of Fuel Volatility on Flame Spread along Fuel Droplet Arrays in Microgravity (in Japanese) JSME Journal Series B, 71 (711), pp. 2769-2775, 2005.
28.	Moriue, O., Mikami, M., Kojima, N. and Eigenbrod, C., Numerical Simulations of the Ignition of n-Heptane Droplets in the Transition Diameter Range from Heterogeneous to Homogeneous Ignition, Proceedings of the Combustion Institute, 30, pp. 1973-1980, 2005.01.
29.	Mikami, M., Yamamoto, K., Moriue, O. and Kojima, N., Combustion of Partially Premixed Spray Jets, Proceedings of the Combustion Institute, 30, pp. 2021-2028, 2005.01.
30.	Masato MIKAMI, Kazuhiro YAMAMOTO, Keita NAKAMOTO, Osamu MORIUE and Naoya KOJIMA Combustion Characteristics of Partially Premixed n-Decane Spray Jets (in Japanese) JSME Journal Series B, 71 (701), pp. 344-350, 2005.
31.	Mitsuhiro Tsue, Ryo Ishimaru, Shinji Nakaya, Keiichi Okai, Osamu Moriue, Michikata Kono Spontaneous Ignition of Fuel Droplets in Lean Premixtures of Fuel Vapor and Air (in Japanese) JSME Journal Series B, 70 (694), pp. 1632-1638, 2004.
32.	Moriue, O., Eigenbrod, C., Rath, H. J., Tsue, M., Kono, M. and Sato, J., Spontaneous Ignition of n-Alkane Droplets with Various Volatility, Transactions of the Japan Society for Aeronautical and Space Sciences, Vol. 47, No. 157, pp. 189-194, 2004.11.
33.	Wendt, C., Eigenbrod, C., Moriue, O. and Rath, H. J., A Model for Devolatilization and Ignition of an Axisymmetric Coal Particle, Proceedings of the Combustion Institute, 29, pp. 449-457, 2002.01.
34.	Okai, K., Ono, Y., Moriue, O., Shiba, S., Araki, M., Nomura, H., Shiga, S., Tsue, M. and Kono, M., Interaction Effects on Combustion of Alcohol Droplet Pairs, JSME International Journal Series B, 44 (1), pp. 126-132, 2001.01.
35.	Schnaubelt, S., Moriue, O., Eigenbrod, C. and Rath, H. J., Detailed Numerical Simulations for the Multi-Stage Self-Ignition Process of n-Decane Single Droplets with Complex Chemistry, Microgravity Science and Technology, XIII/1, pp. 20-23, 2001.01.
36.	Moriue, O., Eigenbrod, C., Rath, H. J., Sato, J., Tsue, M. and Kono, M., Two-Stage Ignition Behavior of a Two-Component Fuel Droplet, Space Forum, Vol.6, pp. 315-321, 2000.09.
37.	Moriue, O., Eigenbrod, C., Rath, H. J., Sato, J., Okai, K., Tsue, M. and Kono, M., Effects of Dilution by Aromatic Hydrocarbons on Staged Ignition Behavior of n-Decane Droplets, Proceedings of the Combustion Institute, 28, pp. 969-975, 2000.08.
38.	Schnaubelt, S., Moriue, O., Eigenbrod, C. and Rath, H. J., Detailed Numerical Simulations of the Multi-Stage Self-Ignition Process of n-Heptane Isolated Droplets and Their Verification by Comparison with Microgravity Experiments, Proceedings of the Combustion Institute, 28, pp. 953-960, 2000.08.
39.	Okai, K., Moriue, O., Araki, M., Tsue, M., Kono, M., Sato, J., Dietrich. D. L. and Williams, F. A., Combustion of Single Droplets and Droplet Pairs in a Vibrating Field Under Microgravity, Proceedings of the Combustion Institute, 28, pp. 977-983, 2000.01.
40.	Okai, K., Moriue, O., Araki, M., Tsue, M., Kono, M., Sato, J., Dietrich, D. L. and Williams, F. A., Pressure Effects on Combustion of Methanol and Methanol/Dodecanol Single Droplets and Droplet Pairs in Microgravity, Combustion and Flame, 121, pp. 501-512, 2000.01.
41.	Okai, K., Ono, Y., Moriue, O., Kato, H., Tsue, M. and Kono, M., Sato, J., Dietrich, D. L. and Williams, F. A., Effects of the Initial Heat-Up Period on a Two-Droplet Array Burning at High Pressure in Microgravity, JSME International Journal, Series B, 43 (3), pp. 485-490, 2000.01.
42.	Eigenbrod, C., Moriue, O., Weilmuenster, P. and Rath, H. J., Development of a Simple Model Fuel for Kerosene Droplet Ignition., 28th Int. Annual Conference of Fraunhofer Institut Chemische Technologie, pp. 42:1-14, 1997.01.

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