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在“
Elsevier电子期刊
”中,
命中:
45
条,耗时:0.0229877 秒
在所有数据库中总计命中:
75
条
1.
Heat transfer characteristics of flow boiling in horizontal ultra-shallow microchannels
作者:
Sihui Hong
;
Yongle Tang
;
Shuangfeng
Wang
;
sf
wang
@scut.edu.cn
;
Chen Kai
;
chenkai@126.com
关键词:
Ultra-shallow microchannels
;
Heat transfer coefficient
;
Confined bubbles
;
Visualization experiment
;
Flow pattern
刊名:International Journal of Heat and Mass Transfer
出版年:2017
2.
Experimental investigation of two-phase slug flow distribution in horizontal multi-parallel micro-channels
作者:
Yanchu Liu
;
Wanchun Sun
;
Shuangfeng
Wang
;
sf
wang
@scut.edu.cn
关键词:
Two-phase flow
;
Phase distribution
;
Parallel micro-channels
;
Visualization
刊名:Chemical Engineering Science
出版年:2017
3.
Superhydrophobic Cu
2
S@Cu
2
O film on copper surface fabricated by a facile chemical bath deposition method and its application in oil-water separation
作者:
Pihui Pi
;
phpi@scut.edu.cn
;
Kun Hou
;
Cailong Zhou
;
Guidong Li
;
Xiufang Wen
;
Shouping Xu
;
Jiang Cheng
;
Shuangfeng
Wang
关键词:
Copper surface
;
Cu2S
;
Cu2O
;
Chemical bath deposition
;
Superhydrophobic
;
Oil-water separation
刊名:Applied Surface Science
出版年:2017
4.
Integration highly concentrated photovoltaic module exhaust heat recovery system with adsorption air-conditioning module via phase change materials
作者:
Suling Zhang
;
Wei Wu
;
Shuangfeng
Wang
;
sf
wang
@scut.edu.cn
关键词:
Highly concentrated photovoltaic module
;
Adsorption air-conditioning module
;
Phase change material
;
Exhaust heat recovery system
;
Domestic hot water
刊名:Energy
出版年:2017
5.
A novel lattice Boltzmann model for the solid-liquid phase change with the convection heat transfer in the porous media
作者:
Wei Wu
;
Suling Zhang
;
Shuangfeng
Wang
;
sf
wang
@scut.edu.cn" class="auth_mail" title="E-mail the corresponding author
关键词:
Lattice Boltzmann method
;
Solid&ndash
;
liquid phase change
;
Porous media
;
Convection heat transfer
;
Effective total enthalpy energy equation
刊名:International Journal of Heat and Mass Transfer
出版年:2017
6.
Enhancement on thermal properties of paraffin/calcium carbonate phase change microcapsules with carbon network
作者:
Tingyu
Wang
;
Shuangfeng
Wang
;
sf
wang
@scut.edu.cn" class="auth_mail" title="E-mail the corresponding author
;
Lixia Geng
;
Yutang Fang
关键词:
Thermal energy storage
;
Phase change composites
;
Network structure
;
Thermal conductivity
;
Thermal stability
刊名:Applied Energy
出版年:2016
7.
Experiment research on the effect of the evaporator鈥檚 configuration design of an innovative ultra-thin looped heat pipe
作者:
Sihui Hong
;
Xinqiang Zhang
;
Yongle Tang
;
Shuangfeng
Wang
;
sf
wang
@scut.edu.cn" class="auth_mail" title="E-mail the corresponding author
;
Zhengguo Zhang
关键词:
Heat transfer capability
;
Evaporator configuration
;
Operation temperature
;
Thermal resistance
;
Ultra-thin looped heat pipe
刊名:International Journal of Heat and Mass Transfer
出版年:2016
8.
Visualization research on confined bubble growth feature and heat transfer characteristic in ultra-shallow micro channel
作者:
Sihui Hong
;
Yongle Tang
;
Yongxin Lai
;
Shuangfeng
Wang
;
sf
wang
@scut.edu.cn" class="auth_mail" title="E-mail the corresponding author
;
Lizhi Zhang
关键词:
Confined bubbles
;
Visualization
;
Heat transfer
;
Turning point
;
Transition stage
刊名:International Journal of Heat and Mass Transfer
出版年:2016
9.
Multiple orientations research on heat transfer performances of Ultra-Thin Loop Heat Pipes with different evaporator structures
作者:
Sihui Hong
;
Shuangfeng
Wang
;
sf
wang
@scut.edu.cn" class="auth_mail" title="E-mail the corresponding author
;
Zhengguo Zhang
关键词:
Heat transfer characteristic
;
Looped heat pipe
;
Multi-dimensions
;
Operation stability
刊名:International Journal of Heat and Mass Transfer
出版年:2016
10.
A novel superhydrophilic-underwater superoleophobic Cu
2
S coated copper mesh for efficient oil-water separation
作者:
Pihui Pi
phpi@scut.edu.cn" class="auth_mail" title="E-mail the corresponding author
;
Kun Hou
;
Cailong Zhou
;
Xiufang Wen
;
xfwen@scut.edu.cn" class="auth_mail" title="E-mail the corresponding author
;
Shouping Xu
;
Jiang Cheng
;
Shuangfeng
Wang
关键词:
Cu2S
;
Microstructure
;
Surfaces
;
Underwater superoleophobic
;
Oil-water separation
刊名:Materials Letters
出版年:2016
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