Narel
Mechanical
- Jul 28, 2009
- 7
Dear all,
I have some problems with heat transfer analysis, where the heat is generated with gamma heating. I have modelled the gamma heating in Abaqus using "Body heat flux" to an axisymmetric model (in 2D).The gamma heating is assumed to be instantaneous and the given volume of the gamma heating is for example 4 W/g (watts/gram). In Abaqus the body heat flux unit is W/m^3. I have converted the 4 W/g into units W/m^3 by multiplying the given volume (4 W/g) with density, when the grams will be reduced.
My problem is the heat transfer in the system itself. The radial structure of the system is quite complicated. I have a tube which has inside the gamma heated piece (steel component). The piece is sinked into the coolant. Out side of this tube is a helium layer, which works as a thermal barrier with the outer tube. In other words there is two tubes and between them is a helium layer. The helium is not flowing and is thus modelled as solid elements. As a boundary condition, I have set for the external surface of the outer tube a constant temperature of 45 celcius. This is the case for the temperature in the reactor pool water.
I have also taken into account the radiation in the helium layer. I have modelled it as "Cavity radiation" setting emissivity of 0.8 for the internal surfaces of the two tubes enclosing the helium.
The maximum diameter of the whole device is about 30mm, so the device with all the components is not that big and the reactor water outside should provide quite good cooling for the system. The problem is now too high temperatures in the device itself. In due to device geometry, which is very complicated, every part can not be modelled precisely and that is why many simplifications had to be made.
Can this be a reason for the too high temperatures, because the device (steel component) contains many slots and gaps (which are very small though), where the coolant can access? These slots and gaps can not be modelled into axisymmectric 2D-model. Another reason for the high temperatures can be the helium layer, which is too thick (t=2,8mm) and that is why the heat can not conduct from the system in due to very small conductivity of helium (0,2 W/mK). Any suggestion how to reduce the temperature in the steel component and improve the conduction in the system using ABAQUS?
Thank you to all for answers in advance
Best regards, Narel
I have some problems with heat transfer analysis, where the heat is generated with gamma heating. I have modelled the gamma heating in Abaqus using "Body heat flux" to an axisymmetric model (in 2D).The gamma heating is assumed to be instantaneous and the given volume of the gamma heating is for example 4 W/g (watts/gram). In Abaqus the body heat flux unit is W/m^3. I have converted the 4 W/g into units W/m^3 by multiplying the given volume (4 W/g) with density, when the grams will be reduced.
My problem is the heat transfer in the system itself. The radial structure of the system is quite complicated. I have a tube which has inside the gamma heated piece (steel component). The piece is sinked into the coolant. Out side of this tube is a helium layer, which works as a thermal barrier with the outer tube. In other words there is two tubes and between them is a helium layer. The helium is not flowing and is thus modelled as solid elements. As a boundary condition, I have set for the external surface of the outer tube a constant temperature of 45 celcius. This is the case for the temperature in the reactor pool water.
I have also taken into account the radiation in the helium layer. I have modelled it as "Cavity radiation" setting emissivity of 0.8 for the internal surfaces of the two tubes enclosing the helium.
The maximum diameter of the whole device is about 30mm, so the device with all the components is not that big and the reactor water outside should provide quite good cooling for the system. The problem is now too high temperatures in the device itself. In due to device geometry, which is very complicated, every part can not be modelled precisely and that is why many simplifications had to be made.
Can this be a reason for the too high temperatures, because the device (steel component) contains many slots and gaps (which are very small though), where the coolant can access? These slots and gaps can not be modelled into axisymmectric 2D-model. Another reason for the high temperatures can be the helium layer, which is too thick (t=2,8mm) and that is why the heat can not conduct from the system in due to very small conductivity of helium (0,2 W/mK). Any suggestion how to reduce the temperature in the steel component and improve the conduction in the system using ABAQUS?
Thank you to all for answers in advance
Best regards, Narel
