.Buildings.Fluid.Geothermal.Borefields.BaseClasses.HeatTransfer.ThermalResponseFactors.finiteLineSource_SteadyState

Information

This function evaluates the steady-state value of finite line source solution. This solution gives the relation between the constant heat transfer rate (per unit length) injected by a line source of finite length H1 buried at a distance D1 from a constant temperature surface (T=0) and the average temperature raise over a line of finite length H2 buried at a distance D2 from the constant temperature surface. The finite line source solution is defined by:

image

where ΔT1-2(t,r,H1,D1,H2,D2) is the temperature raise after a time t of constant heat injection and at a distance r from the line heat source, Q' is the heat injection rate per unit length, ks is the soil thermal conductivity and hFLS is the finite line source solution.

The steady-state finite line source solution is given by:

image

image

Interface

function finiteLineSource_SteadyState
  extends Modelica.Icons.Function;
  input Modelica.Units.SI.Distance dis "Radial distance between borehole axes";
  input Modelica.Units.SI.Height len1 "Length of emitting borehole";
  input Modelica.Units.SI.Height burDep1 "Buried depth of emitting borehole";
  input Modelica.Units.SI.Height len2 "Length of receiving borehole";
  input Modelica.Units.SI.Height burDep2 "Buried depth of receiving borehole";
  input Boolean includeRealSource = true "True if contribution of real source is included";
  input Boolean includeMirrorSource = true "True if contribution of mirror source is included";
  output Real h_21 "Thermal response factor of borehole 1 on borehole 2";
end finiteLineSource_SteadyState;

Revisions


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