МЕГАГРАНТЫ

Международная лаборатория горения и энергетики (ICE LAB)

О лаборатории

Наименование проекта Механика реагирующих сред, нелинейные процессы в реагирующих системах, структура волн горения

Ссылка на сайт лаборатории

№ договора:
14.Y26.31.0003

Наименование ВУЗа:
ФГАОУ ВПО «ДАЛЬНЕВОСТОЧНЫЙ ФЕДЕРАЛЬНЫЙ УНИВЕРСИТЕТ»

Области научных исследований:
ЭНЕРГЕТИКА И РАЦИОНАЛЬНОЕ ПРИРОДОПОЛЬЗОВАНИЕ

Цель проекта:

Развитие методов экологически чистого и эффективного сжигания углеводородного топлива для производства энергии и материалов.

Задачи проекта: 

— Фундаментальные исследования эффективных и экологически чистых методов сжигания углеводородного топлива;
— создание технологий горения, основанных на непосредственном использовании теплоты сгорания в производстве энергоемких материалов и других приложениях.

 

Ведущий учёный

Staff Maruta 

ФИО: Марута Каору

 

Ученые степень и звание:
ДОКТОР ФИЛОСОФИИ, ПРОФЕССОР

Занимаемая должность:

ЗАВЕДУЮЩИЙ ЛАБОРАТОРИЕЙ ДИНАМИКИ ЭНЕРГИИ ИНСТИТУТА ГИДРОДИНАМИКИ УНИВЕРСИТЕТА ТОХОКУ (ЯПОНИЯ),
ЗАМЕСТИТЕЛЬ ДИРЕКТОРА ЦЕНТРА ИННОВАЦИОННЫХ ЭНЕРГЕТИЧЕСКИХ ИССЛЕДОВАНИЙ ИНСТИТУТА ГИДРОДИНАМИКИ УНИВЕРСИТЕТА ТОХОКУ (ЯПОНИЯ)

Области научных интересов:

Новые концепции горения: микрогорение, «беспламенное» горение, горение в условиях микрогравитации.

Научное признание:

Являлся одним из основных участников большого национального проекта Японии по развитию технологии горения c использованием воздуха с высокой температурой.
2002 года руководит исследовательской группой в Институте гидродинамики Университета Тохоку и разрабатывает микрогорелки для источников тепла и реакторы с микропотоками для определения характеристик топлив. Эти исследования способствовали созданию новых высокоэффективных нагревателей с точным контролем температуры, которые могут заменить громоздкие промышленные электрические нагреватели с огромным потреблением энергии.
В 2010 году на основе методики определения универсальных характеристик топлив и изучения химической кинетики в сотрудничестве с компанией измерительных систем разработал новое устройство, которое позволяет определять октановое число синтетического топлива и биотоплив для создания будущих топлив и оптимизации новых горелочных устройств.
Является автором экспериментов по исследованию горения в космосе на японском модуле Kibo на Международной космической станции.

1. Yiguang Ju, Hongsheng Guo, Kaoru Maruta, and Fengshan Liu, On the Extinction Limit and Flammability Limit of Non-adiabatic Stretched Methane-Air Premixed Flame, Journal of Fluid Mechanics, Vol. 342: 315-334 (1997). (cited 118 times in Scopus)
2. Nam Il Kim, Souichiro Kato, Takuya Kataoka, Takeshi Yokomori, Shigenao Maruyama, Toshiro Fujimori, and Kaoru Maruta, Flame Stabilization and Emission of Small Swiss-roll Combustors as Heaters, Combustion and Flame, Vol. 141: 229-240 (2005). (cited 79 times in Scopus)
3. Kaoru Maruta, Takuya Kataoka, Nam Il Kim, Sergey Minaev and Roman Fursenko, Characteristics of combustion in a narrow channel with a temperature gradient, Proceedings of the Combustion Institute, Vol. 30: 2429-2436 (2005). (cited 73 times in Scopus)
4. K. Maruta, K. Takeda, J. Ahn, K. Borer, L. Sitzki, P. D. Ronney and O. Deutschmann, Extinction Limits of Catalytic Combustion in Microchannels, Proceedings of the Combustion Institute, Vol. 29: 957-963 (2002). (cited 56 times in Scopus)
5. Kaoru Maruta, Masaharu Yoshida, Hongsheng Guo, Yiguang Ju, and Takashi Niioka, Extinction of Low-stretched Diffusion Flame in Microgravity, Combustion and Flame, Vol. 112: 181-187 (1998). (cited 49 times in Scopus)
6. Hongsheng Guo, Yiguang Ju, Kaoru Maruta, Takashi Niioka and Fengshan Liu, Radiation Extinction Limit of Counterflow Premixed Lean Methane-Air Flames, Combustion and Flame, Vol. 109: 639-646 (1997). (cited 49 times in Scopus)
7. Hideaki Kobayashi, Teppei Nakashima, Takashi Tamura, Kaoru Maruta and Takashi Niioka, Turbulence Measurements and Observations of Turbulent Premixed Flames at Elevated Pressures up to 3.0 MPa, Combustion and Flame, Vol. 108: 104-117 (1997). (cited 48 times in Scopus)
8. Kaoru Maruta, Masaharu Yoshida, Yiguang Ju and Takashi Niioka, Experimental Study on Methane-Air Premixed Flame Extinction at Small Stretch Rates in Microgravity, 26th symposium on Combustion Institute: 1283-1289 (1996). (cited 32 times in Scopus)
9. Kaoru Maruta, J. K. Park, K. C. Oh, T. Fujimori, S. Minaev and R. Fursenko, Characteristics of Microscale Combustion in a Narrow Heated Channel, Combustion, Explosion and Shock Waves, Vol. 40 No. 5: 516-523 (2004). (cited 31 times in Scopus)
10. Yiguang Ju, Hongsheng Guo, Fengshan Liu and Kaoru Maruta, Effects of the Lewis Number and Radiative Heat Loss on the Bifurcation and Extinction of CH4/O2-N2-He Flames, Journal of Fluid Mechanics, Vol. 379: 165-190 (1999). (cited 30 times in Scopus)

Результаты исследований

Публикации

A prototype micro-thermoelectric power generator for micro-electromechanical systems

  Shambhoo Yadav, Pooja Sharma, Prathima Yamasani, S. Minaev, and Sudarshan Kumar Applied Physics Letters 104, 123903 (2014); DOI:10.1063/1.4870260
Regimes of combustion of a premixed mixture of gases in a heated microchannel with the wall temperature smoothly increasing in the downstream direction Mazurok D.B. , Fursenko R.V., Minaev S.S., Lutsenko N.A., Kumar S. Combustion, Explosion and Shock Waves Volume 50, Issue 1, January 2014, Pages 25-31; DOI: 10.1134/S0010508214010031
On Effect of Gravity Field and Pressure Differences on Heterogeneous Combustion in Porous Media Lutsenko N.A., Levin V.A. Combustion Science Technology 2014, Volume 186, Issue 10-11, 2 November 2014, Pages 1410-1421; DOI: 10.1080/00102202.2014.934611
Numerical modeling of unsteady gas flow through porous heat-evolutional objects with partial closure of the object's outlet Lutsenko N.A. International Journal of Heat and Mass Transfer, Volume 72, May 2014, Pages 602-608; DOI: 10.1016/j.ijheatmasstransfer.2014.01.046
Cobalt boride catalysts for small-scale energy application Simagina V.I., Ozerova A.M., Komova O.V., Odegova G.V., Kellerman D.G., Fursenko R.V., Odintsov E.S., Netskina O.V. Accepted by Catalysis Today, 2014.
Modeling of filtration combustion of gases in a cylindrical porous burner with allowance for radiative heat transfer Palesskii F.S., Fursenko R.V., Minaev S.S. Combustion, Explosion and Shock Waves. V. 50, I. 6, 21 November 2014, Pages 625-631; DOI: 10.1134/S001050821406001X
The fast-time instability map of Liñán’s diffusion-flame regime Gubernov V.V , Kim J.S.  Journal of Mathematical Chemistry, 8 October 2014, 16p.; DOI: 10.1007/s10910-014-0423-0
Numerical simulations of premixed flame ignition in turbulent flow Evgeniy Sereshchenko, Roman Fursenko, Sergey Minaev, Shenqyang Shy Combustion Science and Technology, 186: 1552–1561, 2014; DOI: 10.1080/00102202.2014.935600
Effect of radical quenching on CH4/air flames in a micro flow reactor with a controlled temperature profile Kizaki Y., Nakamura H. , Tezuka T., Hasegawa S., Maruta K. Proceedings of the Combustion Institute 2014; DOI: 10.1016/j.proci.2014.07.030
Characteristics of n-butane weak flames at elevated pressures in a micro flow reactor with a controlled temperature profile Kikui S., Kamada T., Nakamura H., Tezuka T., Hasegawa S., Maruta K. Proceedings of the Combustion Institute 2014; DOI: 10.1016/j.proci.2014.07.029
Sooting limits and PAH formation of n-hexadecane and 2,2,4,4,6,8,8-heptamethylnonane in a micro flow reactor with a controlled temperature profile Nakamura H., Suzuki S., Tezuka T., Hasegawa S., Maruta K. Proceedings of the Combustion Institute 2014; DOI: 10.1016/j.proci.2014.05.148
An OpenMP version of the parallel algorithm for calculation of unsteady gas flow through porous objects with energy sources: Analysis and application Lutsenko N.A. , Tarasov G.V. , Gyrnik K.A.    Numerical Analysis and Applications Volume 7, Issue 3, July 2014, Pages 191-203; DOI: 10.1134/S1995423914030021
Combustion-Synthesized Porous Ni-Al Materials for Radiative Porous Burners A.I. Kirdyashkin, A.N. Guschin, A.S. Maznoy, S.S. Minaev, F.S. Palesskiy Advanced Materials Research, Vol. 1040 (2014) pp 442-447; DOI:10.4028/www.scientific.net/AMR.1040.442
Numerical Comparison of Gas Flows through Plane Porous Heat-Evolutional Object with Axisymmetric one when Object's Outlet is Partially Closed Nickolay A. Lutsenko Advanced Materials Research, Vol. 1040 (2014) pp 529-534; doi:10.4028/www.scientific.net/AMR.1040.529
Thermal-Diffusive Stability of Counterflow Premixed Flames at Low Lewis Numbers Sergey Mokrin, Roman Fursenko, Sergey Minaev Advanced Materials Research
Parallel Algorithm for Modeling of Dynamic Processes in Porous Media George Tarasov, Konstantin Gyrnik, Denis Leontev Advanced Materials Research, Vol. 1040 (2014) pp 559-564
Numerical study of the heat radiation from the porous cylindrical burner with radiative heat exchange F.S.Palesskiy, R.V.Fursenko, S.S.Minaev Advanced Materials Research

Numerical investigations of unsteady flame propagation in stepped microtubes

  Aditya Prakash Singh, V. RatnaKishore, S. Minaev, Sudarshan Kumar RSC Advances Issue 122, 2015
Dynamics of gas combustion in a channel with combustion product flow through a porous wall Miroshnichenko T.P., Belyakov N.S., Minaev S.S. Combustion, Explosion and Shock Waves Volume 51, Issue 3, 29 May 2015, Pages 293-298
NaBH4 generator integrated with energy conversion device based on hydrogen combustion Netskina O.V., Fursenko R.V., Komova O.V., Odintsov E.S., Simagina V.I. Journal of Power Sources Volume 273, 1 January 2015, Pages 278-281
The ambiguous effect of thermal conductivity in a gas flow through porous media with energy-release sources Levin V.A., Lutsenko N.A. Doklady Physics Volume 60, Issue 6, 1 June 2015, Article number A002, Pages 255-258
Study on combustion and ignition characteristics of ethylene, propylene, 1-butene and 1-pentene in a micro flow reactor with a controlled temperature profile Shogo Kikui, Hisashi Nakamura, Takuya Tezuka, Susumu Hasegawa, Kaoru Maruta Combustion and Flame 000 (2015) 1–11
Global stability analysis of gasless flames propagating in a cylindrical sample of energetic material: Influence of radiative heat-losses Kurdyumov V.N., Jiménez C., Gubernov V.V., Kolobov A.V. Combustion and Flame Volume 162, Issue 5, May 01, 2015, Pages 1996-2005
Near-lean limit combustion regimes of low-Lewis-number stretched premixed flames Fursenko R., Minaev S., Nakamura H., Tezuka T., Hasegawa S., Kobayashi T., Takase K., Katsuta M., Kikuchi M., Maruta K. Combustion and Flame Volume 162, Issue 5, May 01, 2015, Pages 1712-1718
The effect of depletion of radicals on freely propagating hydrocarbon flames Gubernov V.V., Minaev S.S., Babushok V.I., Kolobov A.V. Journal of Mathematical Chemistry Volume 53, Issue 10, 19 August 2015, Pages 2137-2154
Gas Filtration from an Underground Reservoir at a Large Initial Pressure Gradient T. P. Miroshnichenko, N. A. Lutsenko, V. A. Levin Journal of Applied Mechanics and Technical Physics, 2015, Vol. 56, No. 5, pp. 864–869.
Experimental study of temperature and emissive characteristics of radiative cylindrical porous burners Fursenko R., Odintsov E., Maznoy A., Gushchin A., Kirdyashkin A., Minaev S. 10th Asia-Pacific Conference on Combustion, ASPACC 2015; Beijing; China; 19 July 2015 through 22 July 2015;
Pulsating instability of large Lewis number counterflow premixed flames Mokrin S., Fursenko R., Minaev S. 10th Asia-Pacific Conference on Combustion, ASPACC 2015; Beijing; China; 19 July 2015 through 22 July 2015;
Experimental study of filtration gas combustion wave propagation and flame anchoring Sirotkin F., Odintsov E., Maznoy A., Kirdyashkin A. 10th Asia-Pacific Conference on Combustion, ASPACC 2015; Beijing; China; 19 July 2015 through 22 July 2015;
On numerical modeling of two-dimensional heterogeneous combustion in porous media under free convection Lutsenko N.A. 10th Asia-Pacific Conference on Combustion, ASPACC 2015; Beijing; China; 19 July 2015 through 22 July 2015;
Pulsating dynamics of rich hydrogen air flames in micro flow reactor Miroshnichenko T., Gubernov V., Minaev S. 10th Asia-Pacific Conference on Combustion 2015 Beijing; China; 19 July 2015 through 22 July 2015;
Construction of Simple Reaction Mechanisms with a Micro Flow Reactor with a Controlled Temperature Profile Shogo Onishi, Takuya Tezuka, Hisashi Nakamura and Kaoru Maruta 10th Asia-Pacific Conference on Combustion, ASPACC 2015; Beijing; China; 19 July 2015 through 22 July 2015;
Wall Chemical Effect on DME Weak Flame in a Rectangular Micro Channel with a Streamwise Temperature Gradient Sui Wan, Yong Fan, Kaoru Maruta, Yuji Suzuki 10th Asia-Pacific Conference on Combustion, ASPACC 2015; Beijing; China; 19 July 2015 through 22 July 2015;
Efficiency of Microcombustion System with Thermoelectric Generator Combined with Countercurrent Heat Exchanger Nikolay BeIyakov, Igor Terletskii, Sergey Minaev, Sudarshan Kumar, Kaoru Maruta Key Engineering Materials. ISSN: 1662-9795, Vol. 685, pp 422-426. doi:10.4028/www.scientific.net/KEM.685.422
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