The package IBPSA.BoundaryConditions.Validation.BESTEST contains the models that are used for the BESTEST validation ASHRAE 2020 for weather data acquisition and postprocessing.
Each model represents a different climate with different days as shown in the tables below. All examples have a script that runs the simulation according to the specifications and derive the required Json file as reported below.
The weather radiation data has to be provided at different orientations and inclinations.
Table 2: Azimuth and Slope for Surfaces
Azimuth |
Slope |
Horizontal |
0° from horizontal |
South |
90° from horizontal |
East |
90° from horizontal |
North |
90° from horizontal |
West |
90° from horizontal |
45° East of South |
90° from horizontal |
45° West of South |
90° from horizontal |
East |
30° from horizontal |
South |
30° from horizontal |
West |
30° from horizontal |
Additional parameters and correlations
Annual Outputs
The following outputs are provided for an annual simulation:
Hourly Outputs
The following outputs are provided for each hour of the days specified for each test case in Table 3:
Table 3: Specific Days for Output
Case |
Days |
WD100 |
May 4th, July 14th, September 6th |
WD200 |
May 24th, August 26th |
WD300 |
February 7th, August 13th |
WD400 |
January 24th, July 1st |
WD500 |
March 1st, September 14th |
WD600 |
May 4th, July 14th, September 6th |
Sub-hourly Outputs
The following outputs are provided at each timestep of the days specified for each test case in Table 3:
The following outputs are provided integrated hourly for the days specified for each test case in Table 3:
(Not available yet)
To generate the data shown in this user guide, run
cd IBPSA/Resources/Data/BoundaryConditions/Validation/BESTEST python3 generateResults.py -p
At the beginning of the Python script there are several options that the user can choose, by default the script will:
(Not available yet)