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Brenner
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Talukdar
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Collapsed dimension
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output
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0 0.25 0.5 0.75 10
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Tong and Sathe [6]
Present work
-
272,227,1468,1,2.0/ 00 PeQR
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1P
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1P
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5
10
15
20
25
30
35
40
P1 = 0.005
P1 = 0.001
P1 = 0.01
g
combustionzone
1P
153,71.9,200,1.0/ 0 PeQR
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10
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combustionzone
Q=500Q=100
Q=1000g
153,71.9,006.0,1,1.0/1
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Q
Radiant outputQ
Q
0 25 50 75 10050
100
150
200
0.5
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Rad
iativ
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tput
Q
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1P
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21
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500
1000
1500
2000
P1
Rad
iativ
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tput fuel-air mixture
...
... .. Radiative
output
1P
153,71.9,200,1,1.0/00 PeQR
5.0,0,1,1.0 fwP
0 0.25 0.5 0.75 10
500
1000
1500
2000
2500
3000
P1=1
+
10 - 3
P1=5
+
10 - 4
P1=8
+
10 - 4
f l
Rad
iativ
eou
tput
1P
153,71.9,200,1,1.0/00 PeQR
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1
Echigo, R., Yoshizawa, Y., Hanamura,K. and tomimura,T. "Analytical and experimental studies on radiative propagation in porous
media with internal heat generation". Proc., 8th Int. Heat transfer Conf. 1986, 2, 827 832. 2 Tong, T. and Sathe, S. "Heat transfer characteristics of porous radiant burners, Trans". Of ASME, J. Heat Transfer, 1991, 113, 423 428.
3 Sathe,S. and Tong,T. "A numerical analysis of heat transfer and combustion in porous radiant burners", Int. J. Heat Mass Transfer, 1990,
33, 1331-1338. 4
Brenner, G. pickenacker, K. Pickenacker,O. Trimis, D., Wawrzinek, K. and Weber, T. "Numerical and experimental investigation of
matrix stabilized methane/air combustion in porous inert media". Combust. Flame, 2000, 123, 201 213. 5 Talukdar, P., Mishra, S. , Trimis, D. and Durst, F. "Heat transfer characteristics of a porous radiant burner under the influence of a 2 D
radiation field". J. Quantitative spectroscopy&Radiative Transfer, 2003, 1-11. 6 Talukdar, P. and Mishra, Sc. "Analysis of conduction radiation problem in absorbing emitting and anisotropically scattering media using
the collapsed dimension method", Int. J. Heat Mass Transfer, 2002, 45, 2159-2168. 7 Wang, K. Y. and Tien, C.L "Thermal insulation in flow systems : combined radiation and convection through a porous segment". J. Heat
Transfer, 1984, 106, 453 459
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