array:
  peak_power_demand: 900 # in kWac
  DC_AC_ratio: 1.2 # ratio of DC to AC power
  spacing: 3 # spacing between adjacent panel rows in m
  edge_setback: 1.8 # distance from the edge of the roof to the array
  roof_slope: 0
  slope: 0 # degrees from horizontal (+ve means shaded row is higher than the row in front)
  performance_ratio: 0.9 # ratio of actual energy output to the theoretical maximum
  orientation:
    vertical:
      surface_azimuth: 90 # degrees from North (clockwise)
      axis_azimuth: 180 # degrees from North (clockwise)
      panel_tilt: 90
      pvrow_height_ratio_to_length: 0.5
    horizontal:
      surface_azimuth: 180 # degrees from North (clockwise)
      axis_azimuth: 270 # degrees from North (clockwise)
      panel_tilt: 0
      pvrow_height_ratio_to_length: 0

simulation_date_time:
  start: 2025-03-30 00:00 # start date and time in ISO 8601 format
  end: 2025-03-30 23:45 # end date and time in ISO 8601 format
  tz: Asia/Kuala_Lumpur # timezone for the simulation
environment:
  roof:
    dimensions:
      # dimensions all in m
      length: 100
      width: 40
    albedo: 0.2 # % of light reflected from the surface
    tilt: 0 # degrees from horizontal
  height: 50 # elevation including building height
  location:
    latitude: 3.1186108758412945
    longitude: 101.57639813680093

panel:
  peak_power: 710 # in Wp
  efficiency: 0.229 # max efficiency of the front face
  bifaciality: 0.85 # rear face efficiency relative to front face
  # dimensions all in m
  dimensions:
    length: 2.384
    width: 1.303
    thickness: 0.033
  temperature_coefficient: -0.0029 # /°C
  nominal_operating_cell_temperature: 43 # °C