Heat Module theory: Difference between revisions

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This page described the algorithm prescribed by the DPRA report. For a [[Heat_module_overview|visual overview]] of the Heat Stress Module, see [[Heat_Stress_module_overview|Heat Stress Overview]].
This page describes the algorithm prescribed by the {{Template:Heat_DPRA_Report}}. For a visual overview of the Heat Stress Module, see [[Heat_Stress_module_overview|Heat Stress Overview]].
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==Algorithm==
==Algorithm==
The calculation prescription of the DPRA report is implemented as followed:
The calculation prescription of the DPRA report is implemented as followed:


Calculate once at the start, per cell:
At the start of the calculation, the following data is pre-calculated for each cell:
# The [[Foliage_result_type_(Heat_Overlay)|foliage height]] in case the foliage height should be based on foliage [[Function|Functions]] with a height and a [[Foliage_crown_factor_(Heat_Overlay)|foliage crown factor]]. See the [[Foliage_height_calculation_model_(Heat_Overlay)|foliage height calculation model]];
# The [[foliage height calculation model (Heat Overlay)|foliage height calculation model]] is used to calculate the [[Foliage result type (Heat Overlay)|foliage height]] (if applicable).
# The [[Sky_view_result_type_(Heat_Overlay)|sky view factor]], based on the terrain height, buildings and [[Foliage_result_type_(Heat_Overlay)|foliage height]]; (See [[Sky_view_factor_calculation_model_(Heat_Overlay)|Sky view calculation]])
# The [[sky view factor calculation model (Heat Overlay)|sky view calculation model]] is used to calculate the [[Sky view result type (Heat Overlay)|sky view factor]].
# The [[Vegetation_avg_result_type_(Heat_Overlay)|average vegetation fraction]] and [[Sky_view_avg_result_type_(Heat_Overlay)|average sky view factor]]. The average window is based on a wind direction and speed; (See [[Average_step_(Heat_Overlay)| average step]])
# The [[average calculation model (Heat Overlay)| average calculation model]] is used to calculate the [[vegetation avg result type (Heat Overlay)|averaged vegetation fraction]] and the [[Sky view avg result type (Heat Overlay)|averaged sky view factor]].
# The [[Uhi_result_type_(Heat_Overlay)|urban heat island effect value]]; (See [[UHI_formula_(Heat_Overlay)|urban heat island formula]])
# The [[UHI formula (Heat Overlay)|urban heat island formula]] is applied to calculate the [[Uhi result type (Heat Overlay)|urban heat island effect value]].


 
Then, for each timeframe, the following data is calculated per cell:
Next, for each timestep, calculate the following, per cell:
# The [[temperature formulas (Heat Overlay)|temperature formulas]] are applied to calculate the [[temperature atmosphere result type (Heat Overlay)|atmospheric temperature]], and the Wet-bulb temperature.
# The [[Temperature_atmosphere_result_type_(Heat_Overlay)|atmospheric temperature]] and the Wet-bulb temperature; (See [[Temperature_formulas_(Heat_Overlay)|temperature formulas]])
# The [[shade calculation model (Heat Overlay)|shade calculation model]] is used to determine whether the cell is [[shade result type (Heat Overlay)|shaded]].
# Is the cell [[Shade_result_type_(Heat_Overlay)|shaded]] by a building, foliage or landscape features; (See [[Shade_calculation_model_(Heat_Overlay)|shade calculation]])
# The [[Wind calculation model (Heat Overlay)|wind calculation model]] is used to determine the [[Wind speed result type (Heat Overlay)|wind speed]] (using [[Weather station (Heat Overlay)|weather station data]]).
# The [[Wind_speed_result_type_(Heat_Overlay)|wind speed]] at 1.2 m above ground, translated from the 10 m wind speed measured at a [[Weather_station_(Heat_Overlay)|weather station]]; (See [[Wind_calculation_model_(Heat_Overlay)|Wind calculation]])
# The [[Diffuse radiation formula (Heat Overlay)|diffuse radiation formula]] is applied to calculate the diffuse radiation.
# The diffuse radiation, based on the sun [[Hourly_radiation_(Heat_Overlay)|radiation]] and [[Sun_altitude_(Heat_Overlay)|altitude angle]]; (See [[Diffuse_radiation_formula_(Heat_Overlay)|diffuse radiation formula]])
# The [[PET formulas (Heat Overlay)|physiological equivalent temperature formulas]] are applied to calculate the final [[Pet result type (Heat Overlay)|physiological equivalent temperature (PET)]].
# The [[Pet_result_type_(Heat_Overlay)|physiological equivalent temperature (PET)]]. If it is night or the cell is in the shade, the [[PET_formulas_(Heat_Overlay)#PET_Shade_and_Night_formula|shade formula]] is used, else the [[PET_formulas_(Heat_Overlay)#PET_Sun_formula|sun formula]] is used.
{{article end
 
|notes=
==Notes==
* Each [[Dates_(Heat_Overlay)|date-time]] created in the Heat Overlay configuration wizard will be its own timestep.
* Each [[Dates_(Heat_Overlay)|date-time]] created in the Heat Overlay Wizard will be its own timestep.
* In the DPRA report step description, the atmospheric temperature is only calculated once. However, the Atmospheric temperature formula used an hour of day input parameter and should therefore be performed each timestep.
* In the DPRA report step description, the atmospheric temperature is only calculated once. However, the Atmospheric temperature formula used an hour of day input parameter and should therefore be performed each timestep.
* We have not implemented an automatic translation to future KNMI WH-scenarios. However, since users can provide their own weather station data, it can be configured manually.
* We have not implemented an automatic translation to future KNMI WH-scenarios. However, since users can provide their own weather station data, it can be configured manually.
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Latest revision as of 15:15, 23 January 2024

This page describes the algorithm prescribed by the DPRA Heat stress report. For a visual overview of the Heat Stress Module, see Heat Stress Overview.

Algorithm

The calculation prescription of the DPRA report is implemented as followed:

At the start of the calculation, the following data is pre-calculated for each cell:

  1. The foliage height calculation model is used to calculate the foliage height (if applicable).
  2. The sky view calculation model is used to calculate the sky view factor.
  3. The average calculation model is used to calculate the averaged vegetation fraction and the averaged sky view factor.
  4. The urban heat island formula is applied to calculate the urban heat island effect value.

Then, for each timeframe, the following data is calculated per cell:

  1. The temperature formulas are applied to calculate the atmospheric temperature, and the Wet-bulb temperature.
  2. The shade calculation model is used to determine whether the cell is shaded.
  3. The wind calculation model is used to determine the wind speed (using weather station data).
  4. The diffuse radiation formula is applied to calculate the diffuse radiation.
  5. The physiological equivalent temperature formulas are applied to calculate the final physiological equivalent temperature (PET).

Notes

  • Each date-time created in the Heat Overlay configuration wizard will be its own timestep.
  • In the DPRA report step description, the atmospheric temperature is only calculated once. However, the Atmospheric temperature formula used an hour of day input parameter and should therefore be performed each timestep.
  • We have not implemented an automatic translation to future KNMI WH-scenarios. However, since users can provide their own weather station data, it can be configured manually.