设为首页
收藏本站
网站地图
|
English
|
公务邮箱
About the library
Background
History
Leadership
Organization
Readers' Guide
Opening Hours
Collections
Help Via Email
Publications
Electronic Information Resources
常用资源
电子图书
期刊论文
学位会议
外文资源
特色专题
内部出版物
知网期刊论文(1)
在“
Elsevier电子期刊
”中,
命中:
14
条,耗时:小于0.01 秒
在所有数据库中总计命中:
1
条
1.
Measurement of thermal interface conductance at variable clamping pressures using a steady state method
作者:
Benjamin Sponagle
;
Dominic
Groulx
;
dominic
.
groulx
@dal.ca" class="auth_mail" title="E-mail the corresponding author
关键词:
Thermal interface materials
;
Steady state characterization
;
Pressure dependence
刊名:Applied Thermal Engineering
出版年:2016
2.
Cooling of server electronics: A design review of existing technology
作者:
Ali C. Kheirabadi
;
Dominic
Groulx
;
dominic
.
groulx
@dal.ca" class="auth_mail" title="E-mail the corresponding author
关键词:
Server electronics
;
Air cooling
;
Liquid cooling
;
Heat pipes
;
Pool boiling
;
Spray cooling
;
Jet impingement
;
Heat transfer
刊名:Applied Thermal Engineering
出版年:2016
3.
Experimental investigations of a latent heat energy storage unit using finned tubes
作者:
Moe Kabbara
a
;
Dominic
Groulx
a
;
dominic
.
groulx
@dal.ca" class="auth_mail" title="E-mail the corresponding author
;
Alain Joseph
b
关键词:
Latent heat storage
;
Phase change materials
;
Thermal conductivity enhancement &ndash
;
fins
;
Experimental investigation
刊名:Applied Thermal Engineering
出版年:2016
4.
Experimental study of the phase change heat transfer inside a horizontal cylindrical latent heat energy storage system
作者:
Chang Liu
;
Dominic
Groulx
;
dominic
.
groulx
@dal.ca" class="auth_mail
关键词:
Latent heat energy storage
;
Dodecanoic acid
;
Phase change heat transfer
;
Natural convection
刊名:International Journal of Thermal Sciences
出版年:August 2014
5.
Experimental study of the phase change and energy characteristics inside a cylindrical latent heat energy storage system: Part 2 simultaneous charging and discharging
作者:
Robynne E. Murray
;
Dominic
Groulx
关键词:
Latent heat energy storage
;
Simultaneous operation
;
Dodecanoic acid
;
Phase change heat transfer
;
Natural convection
;
Solar domestic hot water
刊名:Renewable Energy
出版年:March, 2014
6.
Experimental study of the phase change and energy characteristics inside a cylindrical latent heat energy storage system: Part 1 consecutive charging and discharging
作者:
Robynne E. Murray
;
Dominic
Groulx
关键词:
Latent heat energy storage
;
Dodecanoic acid
;
Phase change heat transfer
;
Natural convection
;
Solar domestic hot water
刊名:Renewable Energy
出版年:2014
7.
Determination of enthalpy-temperature-composition relations in incongruent-melting phase change materials
作者:
Louis Desgrosseilliers
;
Paul Allred
;
Dominic
Groulx
;
Mary Anne White
关键词:
Phase change materials
;
Latent heat energy storage systems
;
Binary phase diagrams
;
T-history
;
Sodium acetate trihydrate
;
Incongruent melting
刊名:Applied Thermal Engineering
出版年:3 November, 2013
8.
Energy storage requirements for in-stream tidal generation on a limited capacity electricity grid
作者:
Sebastian Manchester
;
Behzad Barzegar
;
Lukas Swan
;
Dominic
Groulx
关键词:
Tidal
;
Energy
;
Storage
;
Interconnection
;
Turbine
;
Wind
刊名:Energy
出版年:2013
9.
Heat conduction in laminate multilayer bodies with applied finite heat source
作者:
Louis Desgrosseilliers
;
Dominic
Groulx
;
Mary Anne White
关键词:
Multilayer laminate
;
Composite heat conduction
;
Heat spreader
;
Non-uniform heating
;
Analytical solution
刊名:International Journal of Thermal Sciences
出版年:2013
10.
Study of heat transfer between an over-bed oil burner flame and a fluidized bed during start-up: Determination of the flame to bed convection coefficient
作者:
Vijay Jain
;
Dominic
Groulx
;
Prabir Basu
关键词:
Fluidized bed
;
Heat transfer
;
Convection
;
Radiation
;
Flame
;
Start-up
刊名:Applied Energy
出版年:2010
1
2
按检索点细分(14)
作者(14)
按出版年细分(14)
2027年及以后(3)
2016年(3)
2014年(1)
2013年(2)
2010年(1)
2007年(1)
2006年(1)
2003年(2)
NGLC 2004-2010.National Geological Library of China All Rights Reserved.
Add:29 Xueyuan Rd,Haidian District,Beijing,PRC. Mail Add: 8324 mailbox 100083
For exchange or info please contact us via
email
.