Journal of Thermal Science and Engineering Applications
 2018
DOI: 10.1115/1.4040276
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Numerical Investigation of Heat Transfer Enhancement Inside the Pipes Filled With Radial Pore-Size Gradient Porous Materials

Peiyong Ma
1
,
Baogang Wang
2
,
Shuilin Chen
3
et al.

Abstract: The gradient porous materials (GPMs)-filled pipe structure has been proved to be effective in improving the heat transfer ability and reducing pressure drop of fluid. A GPMs-filled pipe structure in which radial pore-size gradient increased nonlinearly has been proposed. The field synergy theory and tradeoff analysis on the efficiency of integrated heat transfer has been accomplished based on performance evaluation criteria (PEC). It was found that the ability of heat transfer was enhanced considerably, based … Show more

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Cited by 5 publications
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Effect of Reynolds asymmetry and use of porous media in the counterflow double-pipe heat exchanger for passive heat transfer enhancement

Joibary
1
,
Siavashi
2
2019
J Therm Anal Calorim
37
0
4
0
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Effect of Reynolds asymmetry and use of porous media in the counterflow double-pipe heat exchanger for passive heat transfer enhancement

Joibary
1
,
Siavashi
2
2019
J Therm Anal Calorim
37
0
4
0
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Multiscale Simulation of a Novel Leaf-vein-inspired Gradient Porous Wick Structure

Luo
1
,
Liu
2
,
Gou
3
2019
J Bionic Eng
19
0
1
0
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Achievement of wall temperature uniformity by axially graded porous materials

Bai
1
,
Zheng
2
,
Liu
3
et al. 2022
International Journal of Heat and Mass Transfer
3
0
0
0
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