Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/springer-journals/the-influence-of-radiative-convective-heat-transfer-on-ignition-of-the-bfii0EgoXs
References (69)
-
(1986)
The effect of coal composition on coal-water slurry combustion and ash deposition characteristics -
(1958)
Evaporation and growth of droplest in gaseous medium -
(1980)
Gleibman, Thermophysics of Solid Fuel -
(1960)
Air Force Cambridge Research Center -
(1939)
Theory of heat explosion. I. Heat explosion with “zero” order reaction, Zh -
H. Watanabe, Maromu Otaka (2006)
Numerical simulation of coal gasification in entrained flow coal gasifierFuel, 85
-
D. Birchall (2009)
Computational fluid dynamics.The British journal of radiology, 82 Spec No 1
-
C. Yin (2015)
On gas and particle radiation in pulverized fuel combustion furnacesApplied Energy, 157
-
B.H. Armstrong (1959)
Mean absorption coefficient of air, nitrogen and oxygen from 22000 to 220000 -
(1960)
Theory of Turbulent Jets -
Yawei Chen, Kumar Aanjaneya, A. Atreya (2017)
A study to investigate pyrolysis of wood particles of various shapes and sizesFire Safety Journal, 91
-
V. Salomatov (2009)
The state and prospects of coal and nuclear power generation in Russia (review)Thermophysics and Aeromechanics, 16
-
I.I. Danilyuk (1985)
On the Stefan problemRussian Mathematical Surveys, 40
-
(1986)
Foundations of Practical Theory of Combustion -
(1984)
Radiative Heat Transfer in Solid Media -
(2005)
Suspended coal fuel -
Xin Zhang, Tao Wang, Jian Xu, Shizhuo Zheng, Xiaosen Hou (2018)
Study on flame-vortex interaction in a spark ignition engine fueled with methane/carbon dioxide gasesJournal of The Energy Institute, 91
-
(2008)
Tillman, Chapter 2. Coal characteristics, in Combustion engng issues for solid fuel -
M. Özişik (1985)
Radiative Transfer And Interactions With Conduction And Convection -
M. Planck (2010)
The Theory of Heat Radiation -
D. Frank-Kamenet︠s︡kiĭ (1969)
Diffusion and heat transfer in chemical kinetics -
(1939)
On diffusion theory of heterogeneous reactions, Zh -
R. Siegel and J. Howell, Thermal Radiation Heat Transfer, Taylor & Fransis, NY–London. -
J. Meseguer, I. Pérez-Grande, Á. Sanz-Andrés (2012)
Thermal radiation heat transfer -
V. Maksimov, T. Nagornova (2014)
Influence of heatsink from upper boundary on the industrial premises thermal conditions at gas infrared emitter operation, 76
-
B. Armstrong, J. Sokoloff, R. Nicholls, D. Holland, R. Meyerott (1961)
Radiative properties of high temperature airJournal of Quantitative Spectroscopy & Radiative Transfer, 1
-
S.V. Syrodoy V.V. Salomatov (2014)
V.V. Salomatov, S.V. Syrodoy, and N.Yu. Gutareva, Concentration organic components in the hydrocarbon fuel particles conditions and characteristic of ignition, EPJ Web of Conferences, 2014, Vol. 76, No. 01018–1–01018–6. -
V. Salomatov, S. Syrodoy, N. Gutareva (2014)
Modelling of heat and mass transfer to solve the problem of particle ignition water–coal fuelIOP Conference Series: Materials Science and Engineering, 66
-
K. Ahn, S. Baek, Chang Choi (1994)
Investigation of a Coal-Water Slurry Droplet Exposed to Hot Gas StreamCombustion Science and Technology, 97
-
(1962)
Physics of Combustion and Explosion -
W. Gajewski, A. Kijo-Kleczkowska, J. Leszczyński (2009)
Analysis of cyclic combustion of solid fuelsFuel, 88
-
Han Hao, Zongwei Liu, F. Zhao, Jiuyu Du, Yisong Chen (2017)
Coal-derived alternative fuels for vehicle use in China: A reviewJournal of Cleaner Production, 141
-
(1960)
Absorptions Coefficient of Air, Bedford, Mass.: Air Force Cambridge Research Center, Geophysics research paper No -
S. Syrodoy, G. Kuznetsov, Arkadiy Zhakharevich, N. Gutareva, V. Salomatov (2017)
The influence of the structure heterogeneity on the characteristics and conditions of the coal–water fuel particles ignition in high temperature environmentCombustion and Flame, 180
-
J. Watson (2003)
Handbook of lasersOptics and Lasers in Engineering, 40
-
A. Burdukov, V. Popov, V. Tomilov, V. Fedosenko (2002)
The rheodynamics and combustion of coal–water mixturesFuel, 81
-
(2001)
Water-coal fuel as a real alternative to liquid and gaseous nonrenewable fuels -
X. Wen, Haiou Wang, Yujuan Luo, K. Luo, Jianren Fan (2017)
Numerical investigation of the effects of volatile matter composition and chemical reaction mechanism on pulverized coal combustion characteristicsFuel, 210
-
J. Mantzaras (2008)
Catalytic Combustion of SyngasCombustion Science and Technology, 180
-
(1959)
Mean absorption coefficient of air, nitrogen and oxygen from 22000 to 220000, Lockheed Missiles and Space Division -
(1986)
Theoretical analysis on CWM drop combustion history -
(2017)
Romeo power to gas-electrochemical industry hybrid systems: a case study -
V.V. Salomatov (2015)
Numerical simulation of ignition of particles of a coal–water fule, Combustion -
Marcos Amayuelas (2015)
The Stefan problem -
B. Mayr, R. Prieler, M. Demuth, C. Hochenauer (2017)
Comparison between solid body and gas radiation in high temperature furnaces under different oxygen enrichmentsApplied Thermal Engineering, 127
-
A. Kijo-Kleczkowska (2011)
Combustion of coal-water suspensionsFuel, 90
-
(1986)
Combustion of coal dust and calculation of coal dust flame -
(1986)
Foundations of Practical Theory of Combustion, Energoatomizdat, Leningrad -
Hugo Garcés, Luis Arias, A. Rojas, C. Carrasco, A. Fuentes, O. Farias (2016)
Radiation measurement based on spectral emissions in industrial flamesMeasurement, 87
-
B.G. Miller (2008)
Chapter 2. Coal characteristics, in Combustion engng issues for solid fuel sys–tems -
V. Salomatov, S. Syrodoy, G. Kuznetsov (2016)
Heat and mass transfer in a coal-water fuel particle at the stage of “thermal” treatmentThermophysics and Aeromechanics, 23
-
A. Samarskii (1963)
Schemes of high-order accuracy for the multi-dimensional heat conduction equationUssr Computational Mathematics and Mathematical Physics, 3
-
(2016)
Diskaeva, Study of temperature dependency of the liquid evaporation rate from free surface and liquid boiling rate on the solid heating surface -
V.V. Salomatov (2009)
Тheory of combustion of coal–water fuel drop -
A.A. Agroskin (1980)
Thermophysics of Solid Fuel -
(1942)
Fuel Suspensions, Publishing House of the USSR Academy of Sciences -
(2015)
Numerical simulation of ignition of particles of a coalwater fule, Combustion, Explosion and Shock Waves -
Changjian Wang, J. Wen, Shouxiang Lu, Jin Guo (2012)
Single-step chemistry model and transport coefficient model for hydrogen combustionScience China Technological Sciences, 55
-
A. Samarskii, B. Moiseyenko (1965)
An economic continuous calculation scheme for the stefan multidimensional problemUssr Computational Mathematics and Mathematical Physics, 5
-
A.A. Samarskii (1963)
Schemes of high–order accuracy for the multi–dimensional heat conduction equationZh. Vychisl. Mat. Mat. Fiz., 3
-
J. Sokoloff (1960)
Absorptions Coefficient of Air, Bedford, Mass.: Air Force Cam–bridge Research Center -
B.D. Moiseenko A.A. Samarskii (1965)
An economic continuous calculation scheme for the Stefan multidimen–sional problemZh. Vychisl. Mat. Mat. Fiz., 5
-
V. Salomatov, S. Syrodoy, N. Gutareva (2014)
Concentration organic components in the hydrocarbon fuel particles conditions and characteristic of ignition, 76
-
Ulan Bator (2011)
MATHEMATICAL MODELING OF THE HEAT TREATMENT AND COMBUSTION OF A COAL PARTICLE. V. BURN-UP STAGE -
Ailun Wang, Boqiang Lin (2017)
Assessing CO2 emissions in China’s commercial sector: Determinants and reduction strategiesJournal of Cleaner Production, 164
-
(2009)
Coal-water fuel as alternative to natural gas and liquid hydrocarbons -
(1988)
Coal Chemistry and Processing -
D. Spalding (1955)
Some Fundamentals of Combustion -
(2015)
Effect of the shape of particles on the characteristics of the coal-watewr fuel
- Publisher
- Springer Journals
- Copyright
- 2018 Pleiades Publishing, Ltd.
- ISSN
- 0869-8643
- eISSN
- 1531-8699
- DOI
- 10.1134/S0869864318030101
- Publisher site
- See Article on Publisher Site
Abstract
Abstract Simulation results are presented for thermal treatment and ignition of coal-water fuel drops under conditions of radiative-convective heating. The data demonstrate reasonbble compliance between theory and experiment for the integral parameter of ignition process — the delay time of ignition. The radiative component of heat transfer is significant for parameters and conditions of ignition. The increase in the fuel particle size makes this influence bigger. Prognostic potential was evaluated for differnet models of radiative heat tarnsfer. The delay time of ignition obtained from radiative heat transfer model “grey wall” is in good agreement with experimental data. Meanwhile, the method based on radiation diffusion approximation gives the simulation data for delay time much higher than experimental data. It is confirmed that while the process of inflammation of a coal-water particle, the key impotance belongs not to fuel-oxidizer reactions, but rather to a chain of heat treatment events, such as radiative-convective heating, water evaporation, and thermal decomposition of fuel.
Journal
Thermophysics and Aeromechanics – Springer Journals
Published: May 1, 2018