Add to ORKGA ghost cell immersed boundary method is employed to compute the conjugate heat transfer over a circular cylinder in crossflow. The cylinder is internally heated by a circular surface of constant temperature. The conjugate heat transfer boundary treatment proposed at fluid-solid interface is shown to yield second order accurate solution. To demonstrate the capability of the current method, the location of the internal heating surface is varied to examine its effect on the heat transfer.Papers presented to the 12th International Conference on Heat Transfer, Fluid Mechanics and Thermodynamics, Costa de Sol, Spain on 11-13 July 2016
This study investigates some of the basic aspects of conjugate, or coupled, heat transfer problems. ...
Immersed boundary method (IBM) based CFD code has helped considerably in avoiding the tedious grid g...
Immersed boundary method (IBM) based CFD code has helped considerably in avoiding the tedious grid g...
An analytical solution has been obtained for the conjugated problem of heat transfer from an infinit...
An analytical solution has been obtained for the conjugated problem of heat transfer from an infinit...
An analytical solution has been obtained for the conjugated problem of heat transfer from an infinit...
An analytical solution has been obtained for the conjugated problem of heat transfer from an infinit...
An analytical solution has been obtained for the conjugated problem of heat transfer from an infinit...
Considering that the most common reason for electronic component failure is the excessive temperatur...
Considering that the most common reason for electronic component failure is the excessive temperatur...
In this work we study heat transfer from a complex geometry consisting of crossing cylinders subject...
In this work we study heat transfer from a complex geometry consisting of crossing cylinders subject...
Two immersed boundary methods (IBM) for the simulation of conjugate heat transfer problems with comp...
Computational Fluid Dynamics (CFD) has grown over the years thanks tothe constant increase of comput...
Considering that the most common reason for electronic component failure is the excessive temperatur...
This study investigates some of the basic aspects of conjugate, or coupled, heat transfer problems. ...
Immersed boundary method (IBM) based CFD code has helped considerably in avoiding the tedious grid g...
Immersed boundary method (IBM) based CFD code has helped considerably in avoiding the tedious grid g...
An analytical solution has been obtained for the conjugated problem of heat transfer from an infinit...
An analytical solution has been obtained for the conjugated problem of heat transfer from an infinit...
An analytical solution has been obtained for the conjugated problem of heat transfer from an infinit...
An analytical solution has been obtained for the conjugated problem of heat transfer from an infinit...
An analytical solution has been obtained for the conjugated problem of heat transfer from an infinit...
Considering that the most common reason for electronic component failure is the excessive temperatur...
Considering that the most common reason for electronic component failure is the excessive temperatur...
In this work we study heat transfer from a complex geometry consisting of crossing cylinders subject...
In this work we study heat transfer from a complex geometry consisting of crossing cylinders subject...
Two immersed boundary methods (IBM) for the simulation of conjugate heat transfer problems with comp...
Computational Fluid Dynamics (CFD) has grown over the years thanks tothe constant increase of comput...
Considering that the most common reason for electronic component failure is the excessive temperatur...
This study investigates some of the basic aspects of conjugate, or coupled, heat transfer problems. ...
Immersed boundary method (IBM) based CFD code has helped considerably in avoiding the tedious grid g...
Immersed boundary method (IBM) based CFD code has helped considerably in avoiding the tedious grid g...