Hiroyuki Ito

J-GLOBAL         Last updated: Jan 7, 2013 at 13:59
 
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Name
Hiroyuki Ito
Affiliation
Hokkaido University

Research Areas

 
 

Published Papers

 
ITO Hiroyuki, SAKAI Yuto, NAKAHARA Takero, IDA Tamio, FUJITA Osamu
1(2) 36-43   Mar 2012
ITO Hiroyuki, SAKAI Yuto, IDA Tamio, FUJITA Osamu
Journal of the Combustion Society of Japan   53(164) 63-68   May 2011
ITO H., SAKAI Y., FUJITA O., NAKAMURA Y., IDA T.
36(3) 25-26   May 2010
FUJITA Osamu, KYONO Takeshi, KIDO Yasuhiro, ITO Hiroyuki, NAKAMURA Yuji
26(4)    Oct 2009
AGATA Kei, ONISHI Yosuke, FUJITA Osamu, NAKAMURA Yuji, ITO Hiroyuki, KIKUCHI Masao
25(4)    Oct 2008

Misc

 
ITO Hiroyuki, NAKAHARA Takero, SAKAI Yuto, IDA Tamio, FUJITA Osamu
0(7) 150-151   Jan 2012
Fundamental thermal and combustion properties of the Bio-coke (BIC) have been investigated. At first ignition and combustion behaviors are observed in the hot air flow. The results show that the ignition mode and the mass loss rate during the flam...
ONISHI Akira, MASUNAGA Kota, FUJITA Osamu, NAKAMURA Yuji, ITO Hiroyuki
2010(49) 67-68   Nov 2010
Iwakami Junya, Nakamura Yuji, Wakatsuki Kaoru, Ito Hiroyuki, Fujita Osamu
Procee[d]ings of Thermal Engineering Conference   2010(0) 93-94   Oct 2010
Flame spread behavior over electric wire coated polyethylene (PE) in low pressure is studied experimentally. The objective of this study is to investigate the relationship between consumption rate of melting PE and ambient pressure. The ambient ga...
Ito Hiroyuki, Sakai Yuto, Fujita Osamu, Nakamura Yuji, Ida Tamio
Procee[d]ings of Thermal Engineering Conference   2010(0) 319-320   Oct 2010
Ignition and combustion characteristics of Bio-coke (BIC, highly densified biomass briquette) in high temperature air flow have been investigated. In the present study, ignition behavior is observed, and the mass loss rates for flaming combustion ...
MASUNAGA Kohta, ONISHI Akira, ITO Hiroyuki, NAKAMURA Yuji, FUJITA Osamu
2010(3) 209-210   Sep 2010
The purpose of this study is to reveal the effects of DC electric field on carbon nanotube (CNT) synthesis. In flame synthesis method, it is considered that there are two effects of DC electric field which promotes CNT growth; i.e. generating ioni...

Research Grants & Projects

 
Ministry of Education, Culture, Sports, Science and Technology: Grants-in-Aid for Scientific Research(基盤研究(C))
Project Year: 2008 - 2010    Investigator(s): Hiroyuki ITO
Combustion synthesis of carbon nanotube (CNT), in which thermal plasma is coexist with heat and carbon sources, is expected to make the mass production of CNT with low cost possible. It has been found that the CNT growth in this method is promoted...
Ministry of Education, Culture, Sports, Science and Technology: Grants-in-Aid for Scientific Research(基盤研究(B))
Project Year: 2006 - 2008    Investigator(s): Osamu FUJITA