[x] ~Why we have CAPITOUL sensHVAC when cooling setpoints set as 100 degrees C~ (central cooling system, fan pump will generate waste heat, then rejected to the outdoor)
[x] Guelph (urban, rural)
[x] Guelph urban doublecheck
[x] Vancouver rural and urban plot
[x] CAPITOUL doublecheck
[x] building density, vertical to horizontal urban ratio
[x] Gulph (Building type and height)
[x] (Looks like CAPITOUL rural data is OK; Rechec its urban data.)
[x] Guelph 2018 July, August ->EPW template-> generated epw, one paragraph
[x] Interpolated for post-process
[x] Doublecheck the CAPITOUL epw year
[x] CAPITOUL ( Mondouzil to replace FRA_Bordeaux) (rural 2m, 21 mini 6m)
[x] CAPITOUL doublecheck (June) can you repeat the CVRMSE at 10% performance (Only VCWG, Bypass)
[x] CAPITOUL one year,
[x] Vancouver New EPW
[x] Should we do one diurnal cycle to verify if the Vancouver measurements acceptable or not?
[x] Capitoul Only VCWG (annual)
[x] Capitoul Bypass (annual)
[x] Capitoul June (Wind)
[x] CAPITOUL refine the idf and canyon dimensions
[x] sensitivity analysis
[x] Only-VCWG: If crash, the Temp profile should be saved
[x] Bypass: If any thread crash, the Temp profile should be saved.
Expected list
Campaign background (BUBBLE, CAPITOUL, Vancouver): observations, Dense urban site building types Prototype
Mechanical system, Construction (Material radiative properties), Heights, Ceiling;
Material,
F14 Slate or tile, !- Name
VeryRough, !- Roughness
0.0127, !- Thickness {m}
0.06, !- Conductivity {W/m-K}
1920, !- Density {kg/m3}
1260, !- Specific Heat {J/kg-K}
0.95, !- Thermal Absorptance
0.5, !- Solar Absorptance
0.5; !- Visible Absorptance
Material,
M10 200mm concrete block , !- Name
MediumRough, !- Roughness
0.2032, !- Thickness {m}
1.326, !- Conductivity {W/m-K}
1842, !- Density {kg/m3}
912, !- Specific Heat {J/kg-K}
0.9, !- Thermal Absorptance
0.5, !- Solar Absorptance
0.5; !- Visible Absorptance
CAPITOUL
nz,60, # number of points (nz*dz = 3*bldHeight)
nz_u,20, # number of canopy levels in the vertical (nz_u*dz = bldHeight)
Width_canyon,9, # measured from google earth pro
Width_roof,20, # default
# An additional temperature sensor is installed at the top of the adjacent street canyon (rue Pomme).
theta_canyon,-56,
0,1,0, # MediumOffice
zone,9,
N6, \field Dry Bulb Temperature
\units C
\minimum> -70
\maximum< 70
\missing 99.9
N7, \field Dew Point Temperature
\units C
\minimum> -70
\maximum< 70
\missing 99.9
N8, \field Relative Humidity
\missing 999.
\minimum 0
\maximum 110
N9, \field Atmospheric Station Pressure
\units Pa
\missing 999999.
\minimum> 31000
\maximum< 120000
N10, \field Extraterrestrial Horizontal Radiation
\units Wh/m2
\missing 9999.
\minimum 0
N11, \field Extraterrestrial Direct Normal Radiation
\units Wh/m2
\missing 9999.
\minimum 0
N12, \field Horizontal Infrared Radiation Intensity
\units Wh/m2
\missing 9999.
\minimum 0
N13, \field Global Horizontal Radiation
\units Wh/m2
\missing 9999.
\minimum 0
N14, \field Direct Normal Radiation
\units Wh/m2
\missing 9999.
\minimum 0
N15, \field Diffuse Horizontal Radiation
\units Wh/m2
\missing 9999.
\minimum 0
Vancouver
Building,
Ref Bldg Small Office Post1980_v1.3_5.0, !- Name
0.0000, !- North Axis {deg}
RunPeriod,
RUNPERIOD 1, !- Name
7, !- Begin Month
1, !- Begin Day of Month
, !- Begin Year
7, !- End Month
31, !- End Day of Month
, !- End Year
Tuesday, !- Day of Week for Start Day
Schedule:Compact,
BLDG_OCC_SCH, !- Name
Elevation,90, # Elevation above sea level [m]
Performance evaluation
Capitoul
[x] Tower (20 m) Air temperature
[x] 21 mini (2m or 6m, Zone 7) Air temperature
Vancouver
[x] Rural from Int'l Airport
[x] SS4 (1.2m), Tower (26m air temperature, 28.8 Acoustic Temperature)
Key points report
Albedo definition might be different from EP and VCWG.
Width_canyon,18.2, # distance between buildings at street level in the x and y direction must be equal [m]actual rural site)real-epwmight bereal-rural-atmcanyondimensionsExpected list
Heights
BUBBLE -Ue1
CAPITOUL
Vancouver
Performance evaluation
Key points report
Guelph