Experimental cooling data in KUBIK lab-building during the 2020 season. HOLISDER project pre-pilot testing activities.

Dataset

Description

The data in this dataset is derived from the one of the pre-validation tests of the HOLISDER European project http://holisder.eu/ . The testing premises consist of an enclosed area in the ground floor of KUBIK by TECNALIA Research & Innovation (a three floors experimental buildings, including an underground basement where central HVAC equipment are located). The ground floor is cooled through two fan-coil, as terminal units, while the cooling generation was performed by two chillers located in the basement. The SCADA system of the building records operation temperatures, mass flows, delivered power, fan-coils operation volume, setpoint temperatures and operation modes. The test was carried out from 01/07/20 to 31/10/2020 under strict cooling comfort boundaries in order to characterize the premise’s systems.

One file is provided as a xlsx file with the following features with 10-minute frequency:

(Disclaimer: Provided dataset is raw-data and null or error values were not deleted from it)

Weather station

METEO_RoofSR_Global.PV: Global horizontal radiation
METEO_GardenWS_AT.PV: Outdoor dry bulb temperature

FANCOIL 1

F0N2_FCM1.Enable: Fancoil1 enabled
F0N2_FCM1.PV: Fancoil1 thermostat reading
F0N2_FCM1.SP: Fancoil1 thermostat setpoint
F0N2_FCM1.ST_COOL_Mode: Fancoil on cooling mode
F0N2_FCM1.ST_HOT_Mode: Fancoil on heating mode
F0N2_FCM1.ST_VENT_Mode : Fancoil on fan mode
F0N2_FCM1_C5.PV: Inlet water flow
F0N2_FCM1_ST1.PV: Inlet water temperature
F0N2_FCM1_ST2.PV: Outlet water temperature
F0N2_FCM1_W5.kWh: Cumulative thermal supply
F0N2_FCM1_W5.kWh_AC: Cumulative heat
F0N2_FCM1_W5.kWh_AF: Cumulative cold
F0N2_FCM1_W5.W: Thermal power

FANCOIL 2

F0N2_FCM2.Enable: Fancoil2 enabled
F0N2_FCM2.PV: Fancoil2 thermostat reading
F0N2_FCM2.SP: Fancoil2 thermostat setpoint
F0N2_FCM2.ST_COOL_Mode: Fancoil on cooling mode
F0N2_FCM2.ST_HOT_Mode: Fancoil on heating mode
F0N2_FCM2.ST_VENT_Mode : Fancoil on fan mode
F0N2_FCM2_C6.PV: Inlet water flow
F0N2_FCM2_ST1.PV: Inlet water temperature
F0N2_FCM2_ST2.PV: Outlet water temperature
F0N2_FCM2_W6.kWh: Cumulative thermal supply
F0N2_FCM2_W6.kWh_AC: Cumulative heat
F0N2_FCM2_W6.kWh_AF: Cumulative cold
F0N2_FCM2_W6.W: Thermal power

CHILLER 1

HVAC_BP301.OUT: Impulsion pump to distribution order
HVAC_CP301.PV: Outlet cold water flow
HVAC_ENF1_CVM.Hz: Frequency
HVAC_ENF1_CVM.I_III: Average Intensity
HVAC_ENF1_CVM.IR: Intensity phase R
HVAC_ENF1_CVM.IS: Intensity phase S
HVAC_ENF1_CVM.IT: Intensity phase T
HVAC_ENF1_CVM.kVArh_in: Reactive Energy (R+)
HVAC_ENF1_CVM.kVArh_out: Reactive Energy (R-)
HVAC_ENF1_CVM.kWh_in: Active Energy A+)
HVAC_ENF1_CVM.kWh_out: Active Energy (A-)
HVAC_ENF1_CVM.PF_III: Power factor (average)
HVAC_ENF1_CVM.PF_R: Power factor phase R
HVAC_ENF1_CVM.PF_S: Power factor phase S
HVAC_ENF1_CVM.PF_T: Power factor phase T
HVAC_ENF1_CVM.V_III: Combined Voltage
HVAC_ENF1_CVM.VA: Apparent Power
HVAC_ENF1_CVM.Var: Reactive Power
HVAC_ENF1_CVM.VRS: Phases R-S combined voltage
HVAC_ENF1_CVM.VST: Phases S-T combined voltage
HVAC_ENF1_CVM.VTR: Phases T-R combined voltage
HVAC_ENF1_CVM.W: Active Power
HVAC_ENF1_m.OUT: Turning on order
HVAC_Enfriadora1.SP: Control setpoint
HVAC_SP301.PV: Cold water outlet
HVAC_SP302.PV: Cold water inlet
HVAC_WP301.kWh: Cumulative thermal energy produced (cold)
HVAC_WP301.W: Thermal power (cold)

CHILLER 2

HVAC_BP401.OUT: Impulsion pump to distribution order
HVAC_CP401.PV: Outlet cold water flow
HVAC_ENF2_CVM.Hz: Frequency
HVAC_ENF2_CVM.I_III: Average Intensity
HVAC_ENF2_CVM.IR: Intensity phase R
HVAC_ENF2_CVM.IS: Intensity phase S
HVAC_ENF2_CVM.IT: Intensity phase T
HVAC_ENF2_CVM.kVArh_in: Reactive Energy (R+)
HVAC_ENF2_CVM.kVArh_out: Reactive Energy (R-)
HVAC_ENF2_CVM.kWh_in: Active Energy A+)
HVAC_ENF2_CVM.kWh_out: Active Energy (A-)
HVAC_ENF2_CVM.PF_III: Power factor (average)
HVAC_ENF2_CVM.PF_R: Power factor phase R
HVAC_ENF2_CVM.PF_S: Power factor phase S
HVAC_ENF2_CVM.PF_T: Power factor phase T
HVAC_ENF2_CVM.V_III: Combined Voltage
HVAC_ENF2_CVM.VA: Apparent Power
HVAC_ENF2_CVM.Var: Reactive Power
HVAC_ENF2_CVM.VRS: Phases R-S combined voltage
HVAC_ENF2_CVM.VST: Phases S-T combined voltage
HVAC_ENF2_CVM.VTR: Phases T-R combined voltage
HVAC_ENF2_CVM.W: Active Power
HVAC_ENF2_m.OUT: Turning on order
HVAC_Enfriadora2.SP: Control setpoint
HVAC_SP401.PV: Cold water outlet
HVAC_SP402.PV: Cold water inlet
HVAC_WP401.kWh: Cumulative thermal energy produced (cold)
HVAC_WP401.W: Thermal power (cold)

Chillers room temperature

HVAC_STA.PV: Air temperature in the basement where chillers are located (point A)
HVAC_STB.PV: Air temperature in the basement where chillers are located (point B)
HVAC_STC.PV: Air temperature in the basement where chillers are located (point C)
HVAC_STD.PV: Air temperature in the basement where chillers are located (point D)
Date made available10 May 2021
PublisherZenodo

Funding

FundersFunder number
European CommisionH2020, 768614

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