- Radiation problem should include temperature in K.
- All BCs on a particular set of faces need to be applied at once, otherwise the following assignment would overwrite the preceeding one if they are applied on the same set of faces.
Unexpected Result for 3-D Thermal Transient Analysis of Heat sink using PDE Solver Toolbox
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Jake Edwards
am 18 Nov. 2019
Kommentiert: Jake Edwards
am 19 Nov. 2019
I have completed analysis for a heat sink using ANSYS and I'm attempting to validate the results on MATLAB but the transient temperature matrix seems to not change from the intial temperature condition of 60 degrees celcius even though the results are transient. I believe the ANSYS result shows the correct change after 10seconds. The meshing quality is also much better on ANSYS
Link for heatsink 3d model: https://1drv.ms/u/s!AujKksRUPEcroAxpJinCVDnxyrLo?e=4w7FlB
ANSYS RESULT:
MATLAB MODEL:
MATLAB RESULT:
%% Model Setup for Heat Sink
thermalmodel = createpde('thermal','transient');
importGeometry(thermalmodel,'heatsink.stl');
pdegplot(thermalmodel,'FaceLabel','on','FaceAlpha',0.5);
axis equal
%% mesh
generateMesh(thermalmodel,'Hmax',0.4);
figure;
pdeplot3D(thermalmodel);
%% Boundary Condition, Aluminium Alloy Properties and Initial Conditions
TCval = @(location,state)139.3 + 0.204*state.u; %sets thermal conductivity (W/m/°C) as a function of temperature only approximate equation based on linear trend for table data from ansys engineering alumnium alloy data
MDval = 2770; %density kg/m^3
SHval = 875; %specific heat (J/kg/°C)
ATval = 25; %ambient temperature
CCval = 30; %convective film coefficient W/m^2
REval = 0.77; %radiation emissivity
thermalmodel.StefanBoltzmannConstant = 5.670373E-8;
faces = [1,3:30];
thermalProperties(thermalmodel,'ThermalConductivity',TCval,'MassDensity',MDval,'SpecificHeat',SHval);
thermalBC(thermalmodel,'Face',faces,'ConvectionCoefficient',@(region,state)CCval,'AmbientTemperature',ATval);
thermalBC(thermalmodel,'Face',faces,'Emissivity',@(region,state)REval,'AmbientTemperature',ATval);
thermalBC(thermalmodel,'Face',2,'ConvectionCoefficient',5,'AmbientTemperature',ATval);
thermalBC(thermalmodel,'Face',2,'Emissivity',0.1,'AmbientTemperature',ATval);
thermalIC(thermalmodel,60); %sets initial temperature °C problem with this as temp doesnt go down very fast?
%% solve
tlist= [0:10]; %time from 0 to 10seconds
thermalTransientResults = solve(thermalmodel,tlist);
pdeplot3D(thermalmodel,'ColorMapData',thermalTransientResults.Temperature(:,10))
%for n = 1:numel(thermalTransientResults.SolutionTimes)
% figure
% pdeplot3D(thermalmodel,'ColorMapData',thermalTransientResults.Temperature(:,n))
% title(['Temperature at Time = ' num2str(tlist(n))])
%end
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Akzeptierte Antwort
Ravi Kumar
am 19 Nov. 2019
Here is the correct results using the new STL after fixing two more inconsitencies:
code:
%% Model Setup for Heat Sink
thermalmodel = createpde('thermal','transient');
gm = importGeometry(thermalmodel,'heatsinkv2.stl');
pdegplot(thermalmodel,'FaceLabel','on','FaceAlpha',0.5);
axis equal
%% mesh
generateMesh(thermalmodel);
figure;
pdeplot3D(thermalmodel);
%% Boundary Condition, Aluminium Alloy Properties and Initial Conditions
TCval = @(location,state)139.3 + 0.204*(state.u-273.15); %sets thermal conductivity (W/m/°C) as a function of temperature only approximate equation based on linear trend for table data from ansys engineering alumnium alloy data
MDval = 2770; %density kg/m^3
SHval = 875; %specific heat (J/kg/°C)
ATval = 25+273.15; %ambient temperature
CCval = 30; %convective film coefficient W/m^2
REval = 0.77; %radiation emissivity
thermalmodel.StefanBoltzmannConstant = 5.670373E-8;
faces = [1,3:30];
thermalProperties(thermalmodel,'ThermalConductivity',TCval,'MassDensity',MDval,'SpecificHeat',SHval);
thermalBC(thermalmodel,'Face',faces,'ConvectionCoefficient',@(region,state)CCval,'Emissivity',@(region,state)REval,'AmbientTemperature',ATval);
thermalBC(thermalmodel,'Face',2,'ConvectionCoefficient',5,'Emissivity',0.1,'AmbientTemperature',ATval);
thermalIC(thermalmodel,60+273.15); %sets initial temperature °C problem with this as temp doesnt go down very fast?
%% solve
tlist= [0:10]; %time from 0 to 10seconds
thermalTransientResults = solve(thermalmodel,tlist);
pdeplot3D(thermalmodel,'ColorMapData',thermalTransientResults.Temperature(:,10)-273.15)
Regards,
Ravi
Weitere Antworten (1)
Ravi Kumar
am 18 Nov. 2019
Hello Jake,
You seem to have unit mismatch in the MATLAB model. PDE Toolbox doesn't have any units. When you exported the geometry it looks it is in mm whereas your material properties are in terms of m.
Regards,
Ravi
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