Exact(10)
The thermal boundaries were modelled using lumped convection heat loss.
When it comes to the characteristics of the different objects (buildings, thermal boundaries, etc).
There is no need to adopt more target temperature points than the number of unknown thermal boundaries.
For the simulation of a realistic temperature distribution in the device, the correct treatment of thermal boundaries is highly relevant.
The asymmetric thermal boundaries bring the sunny-shady slope effect, which is investigated in most studies by comparing the temperatures difference between symmetric positions.
Where the LAB is shallower, as in the northern and northwestern model parts, the heat has to overcome a smaller distance to equilibrate between the two thermal boundaries (LAB: 1300 °C, surface: −11 to +12 °C) leading to an increased geothermal gradient than in areas with a deeper LAB (central model area).
Similar(50)
Thermal boundary layer thickness reduction.
Fig. 4 Different thermal boundary conditions.
re-formation of thermal boundary layer partitioned heat flux.
This results in thickening of the thermal boundary layer.
Consequently, thickness of thermal boundary layer reduces as Pr increases.
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