PET formulas (Heat Overlay): Difference between revisions

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* <math>S_{v,f}</math> is the calculated [[Sky_view_factor_formula_(Heat_Overlay)|sky view factor]];
* <math>S_{v,f}</math> is the calculated [[Sky_view_factor_formula_(Heat_Overlay)|sky view factor]];
* <math>Q_{d,t}</math> is the calculated [[Diffuse_radiation_formula_(Heat_Overlay)|diffusive radiation]] at time t;
* <math>Q_{d,t}</math> is the calculated [[Diffuse_radiation_formula_(Heat_Overlay)|diffusive radiation]] at time t;
* <math>\sigma</math> is the Stefan Boltzmann constant, which is 5.670374419...×10<sup>-8</sup> W⋅m<sup>-2</sup>⋅K<sup>-4</sup>.
* <math>\sigma</math> is the Stefan Boltzmann constant, which is <math>5.670374419...\times 10^{-8} W \cdot m^{-2} \cdot K^{-4}</math>.


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Revision as of 11:48, 20 September 2019

The physiological equivalent temperature PET is calculated for two possible options based on the situation:

  • A cell is in the shade or it is night at time t: PETshade, night;
  • A cell is in the sun during the day: PETsun;

PET Sun formula

The PET sun formula is as followed:

where,

PET Shade and Night formula

The PET shade and night formula is as followed:

where,

  • is the calculated atmospheric temperature at time t;
  • is the calculated wind speed at 1.2m above ground time t;
  • is the calculated wet-bulb temperature at time t;
  • is the calculated sky view factor;
  • is the calculated diffusive radiation at time t;
  • is the Stefan Boltzmann constant, which is .