The aim of this work is to show how it is possible to improve the reliability of a power converter by means of thermal\u2013fluid dynamic numerical analysis. Power electronic converters such as those for High Energy Physics Experiments (HEPEs), must operate in hostile environment with tight thermal constraints and the reliability must be high because of the inaccessibility during the experiments and the high costs of the overall setup. Due to the high power density, the presence of closed environments and the requirement of non-thermal interaction with other subsystems, a liquid cooling system is mandatory. 3D FEM and/or FVM simulations can be used to analyze thermal fluid dynamic behavior of those systems and can be a useful support to des...
The development of high-power electronic devices in various energy systems has recently gained atten...
The heat dissipation performance of an intelligent power module (IPM) is an important part of power ...
The Division for Electricity of Uppsala University is developing a wave power concept. The energy of...
The aim of this work is to show how it is possible to improve the reliability of a power converter b...
The aim of this work is to develop a thermal-fluid dynamic FE model, accurate enough to be used for ...
The aim of this paper is to show and discuss results of 3D finite-element simulations for thermal ma...
Power supplies for LHC experiments require DC-DC power converters able to work in very hostile envir...
Power supplies for LHC experiments (ATLAS) require DC-DC power converters able to work in very hosti...
Power conversion units are used any time there is an electrical energy conversion or a nominal volta...
This report presents a design methodology to develop electro-thermal models for High Power Density C...
Thermal management of electronic systems is the utmost concern to achieve optimum efficiency under s...
This paper is orientated for the ones who are interested in solving the heat dissipation issue that ...
In the power electronics market the keywords for an evaluation of fluid heat sinks are "pressure dro...
We have developed and experimentally validated a 3D model for thermal analysis and reliability-consc...
ABSTRACT A study of thermal management of a harsh environment power electronics system is presented....
The development of high-power electronic devices in various energy systems has recently gained atten...
The heat dissipation performance of an intelligent power module (IPM) is an important part of power ...
The Division for Electricity of Uppsala University is developing a wave power concept. The energy of...
The aim of this work is to show how it is possible to improve the reliability of a power converter b...
The aim of this work is to develop a thermal-fluid dynamic FE model, accurate enough to be used for ...
The aim of this paper is to show and discuss results of 3D finite-element simulations for thermal ma...
Power supplies for LHC experiments require DC-DC power converters able to work in very hostile envir...
Power supplies for LHC experiments (ATLAS) require DC-DC power converters able to work in very hosti...
Power conversion units are used any time there is an electrical energy conversion or a nominal volta...
This report presents a design methodology to develop electro-thermal models for High Power Density C...
Thermal management of electronic systems is the utmost concern to achieve optimum efficiency under s...
This paper is orientated for the ones who are interested in solving the heat dissipation issue that ...
In the power electronics market the keywords for an evaluation of fluid heat sinks are "pressure dro...
We have developed and experimentally validated a 3D model for thermal analysis and reliability-consc...
ABSTRACT A study of thermal management of a harsh environment power electronics system is presented....
The development of high-power electronic devices in various energy systems has recently gained atten...
The heat dissipation performance of an intelligent power module (IPM) is an important part of power ...
The Division for Electricity of Uppsala University is developing a wave power concept. The energy of...