Доступ предоставлен для: Guest
Портал Begell Электронная Бибилиотека e-Книги Журналы Справочники и Сборники статей Коллекции
High Temperature Material Processes: An International Quarterly of High-Technology Plasma Processes
SJR: 0.137 SNIP: 0.341 CiteScore™: 0.43

ISSN Печать: 1093-3611
ISSN Онлайн: 1940-4360

Выпуски:
Том 23, 2019 Том 22, 2018 Том 21, 2017 Том 20, 2016 Том 19, 2015 Том 18, 2014 Том 17, 2013 Том 16, 2012 Том 15, 2011 Том 14, 2010 Том 13, 2009 Том 12, 2008 Том 11, 2007 Том 10, 2006 Том 9, 2005 Том 8, 2004 Том 7, 2003 Том 6, 2002 Том 5, 2001 Том 4, 2000 Том 3, 1999 Том 2, 1998 Том 1, 1997

High Temperature Material Processes: An International Quarterly of High-Technology Plasma Processes

DOI: 10.1615/HighTempMatProc.v16.i2.30
pages 97-107

PLASMA TECHNOLOGIES FOR FUEL CONVERSION

V. E. Messerle
The Combustion Problems Institute, Scientific-Technical Organization "Plasmotekhnika", Research Institute of Experimental and Theoretical Physics, Almaty, Kazakhstan
A. B. Ustimenko
The Combustion Problems Institute, Scientific-Technical Organization "Plasmotekhnika", Research Institute of Experimental and Theoretical Physics, Almaty, Kazakhstan

Краткое описание

The results of long-term research of plasmachemical technologies of pyrolysis, hydrogenation, thermochemical treatment for combustion, gasification, radiation-plasma, and complex conversion of solid fuels, including uranium-containing slate coal, and cracking of hydrocarbon gases, are presented. The use of these technologies for obtaining target products (hydrogen, hydrocarbon black, hydrocarbon gases, synthesis gas, and valuable components of the coal mineral mass) meet the modern experimental and economic requirements to the power sector, metallurgy and chemical industry. Plasma coal conversion technologies are characterized by a small time of reagents retention in the reactor and a high rate of the original substances conversion to the target products without catalysts. Thermochemical treatment of fuel for combustion is performed in a plasma fuel system, representing a reaction chamber with a plasmatron, while other plasma fuel conversion technologies are performed in a combined plasmachemical reactor of 100 kW nominal power, in which the area of heat release from the electric arc is combined with the area of chemical reactions.


Articles with similar content:

THERMOCHEMICAL PRODUCTION OF SYNGAS USING CONCENTRATED SOLAR ENERGY
Annual Review of Heat Transfer, Vol.15, 2012, issue 15
Aldo Steinfeld
RECUPERATED GAS TURBINE INTEGRATED WITH THE PFBC COMBINED CYCLE POWER PLANT
ICHMT DIGITAL LIBRARY ONLINE, Vol.1, 2000, issue
J. Krysinski, Bozin Donevski, R. Chodkiewicz, J. Porochnicki, J. Krzton
Abstract of "RECUPERATED GAS TURBINE INTEGRATED WITH THE PFBC COMBINED CYCLE POWER PLANT"
ICHMT DIGITAL LIBRARY ONLINE, Vol.1, 2000, issue
J. Krysinski, Bozin Donevski, R. Chodkiewicz, J. Porochnicki, J. Krzton
BIOFUEL AND HYDROGEN PRODUCTION FROM BIOMASS GASIFICATION BY USE OF THERMAL PLASMA
High Temperature Material Processes: An International Quarterly of High-Technology Plasma Processes, Vol.11, 2007, issue 2
A. Hacala, P. Gramondi, U. Michon, M. Brothier, M. Labrot, C. Poletiko
INVESTIGATION OF PROCESSES USED FOR TREATMENT OF PHARMACOLOGICAL PRODUCTION WASTE IN A PLASMA UNIT
High Temperature Material Processes: An International Quarterly of High-Technology Plasma Processes, Vol.16, 2012, issue 2
Hr. Dalholenka, A. Nikanchuk, Aleksandr Liavonchyk