VRF Condenser Unit (Air Cooled)
Last updated
Last updated
Variable Refrigerant Flow (VRF) Condenser Unit (Air Cooled) regulates cooling by adjusting refrigerant flow based on demand, ensuring precise temperature control. The air-cooled design enhances efficiency by dissipating heat through air exchange.
Specify the Cooling β Rated COP, indicating the cooling coefficient of performance at rated conditions. This COP includes compressor power and condenser fan power, excluding impacts due to the supply air fan. The nominal heat pump cooling COP should be greater than 0 and less than 10.
Specify the Heating β Rated COP, representing the heating coefficient of performance at rated conditions. This COP includes compressor power and condenser fan power, excluding impacts due to the supply air fan. The nominal heat pump heating COP should be greater than 0 and less than 10.
Specify the Heating Capacity Sizing Ratio, denoting the gross heating to gross cooling capacity ratio.
Specify the Min. Heat Pump Part Load Ratio, indicating the heat pump's minimum operating part-load ratio (PLR). When the heat pump operates at a PLR below this value, the compressor will cycle to meet cooling or heating demand.
Specify the Sizing Method by choosing between Autosize or manual. Autosize utilizes Energy Plus sizing routines, while manual entry provides detailed component sizing information.
Specify the Gross Rated Total Cooling Capacity, denoting the total cooling capacity (sensible + latent) of the heat pump at rated conditions in watts.
Specify the Gross Rated Heating Capacity, indicating the gross total heat pump heating capacity at rated conditions in watts. The nominal heat pump heating capacity must be greater than 0.
Specify the Min. Condenser Inlet Temp. - Cooling Mode, defining the minimum source inlet temperature allowed for cooling operation. For air-cooled equipment, outdoor dry-bulb temperature is used, and for water-cooled equipment, inlet water temperature is used. Cooling is disabled below this temperature. If left blank, the default value is -6βC.
Specify the Max. Condenser Inlet Temp. - Cooling Mode indicates the maximum source inlet temperature allowed for cooling operation. For air-cooled equipment, outdoor dry-bulb temperature is used, and for water-cooled equipment, inlet water temperature is used. Cooling is disabled above this temperature. If left blank, the default value is 43βC.
Specify the Min. Condenser Inlet Temp. - Heating Mode, defining the minimum source inlet temperature allowed for heating operation. For air-cooled equipment, outdoor dry-bulb temperature is used, and for water-cooled equipment, inlet water temperature is used. The heating is disabled below this temperature. If left blank, the default value is -20βC.
Specify the Max. Condenser Inlet Temp. - Heating Mode denotes the maximum source inlet temperature allowed for heating operation. For air-cooled equipment, outdoor dry-bulb temperature is used; water-cooled equipment uses inlet water temperature. The heating is disabled above this temperature. If left blank, the default value is 16βC. Manufacturers' specifications should be checked for water-cooled equipment, and a more reasonable value may need to be entered.
Specify the Number of Compressors in the heat pump condensing unit, used to determine the operating characteristics of the crankcase heater.
Specify the Ratio Compressor Size to Compressor Capacity %, a numeric field defining the size of the first stage compressor to the total compressor capacity. This parameter is exclusively used for calculating crankcase heater energy, with a default value of 0.5.
Specify the Piping Length β Cooling Mode, representing the equivalent pipe length in meters between the farthest terminal unit and the heat pump condenser. This includes gas refrigerant line length, fitting losses, pipe bends, and other connections contributing to piping losses.
Specify the Piping Length β Heating Mode, indicating the equivalent pipe length in meters between the farthest terminal unit and the heat pump condenser. This value encompasses liquid refrigerant line length, fitting losses, pipe bends, and other connections contributing to piping losses.
Specify the Piping Height, representing the vertical pipe height in meters between the highest or lowest terminal unit and the heat pump condenser. This value defines gravitational losses due to height changes between the highest (positive value) or lowest (negative value) terminal unit and the heat pump condenser.
Specify the Piping Height Correction Factor - Cooling Mode, representing the vertical pipe height in meters between the highest or lowest terminal unit and the heat pump condenser. This factor defines gravitational losses due to changes in height between the highest (positive value) or lowest (negative value) terminal unit and the heat pump condenser.
Specify the Piping Height Correction Factor - Heating Mode, indicating the equivalent pipe length in meters between the farthest terminal unit and the heat pump condenser. This value includes liquid refrigerant line length, fitting losses, pipe bends, and other connections contributing to piping losses.
Specify the Heat Pump Waste Heat Recovery configuration, choosing between Yes and No. If Yes is selected, heat recovery is enabled, allowing the heat pump to independently cool and heat different zones. If No is chosen, the heat pump can only cool or heat during any given time step.
Specify the Min. Condenser Inlet Temp. - Heat Recovery Mode, indicating the minimum source inlet temperature allowed for heat recovery operation. Heat recovery is disabled below this temperature.
Specify the Max. Condenser Inlet Temp. - Heat Recovery Mode, setting the maximum source inlet temperature allowed for heat recovery operation. Heat recovery is disabled above this temperature. This input must be less than the smaller of the maximum condenser inlet node temperature in cooling or heating mode.
Specify the Initial Heat Recovery Cooling Capacity Fraction, representing the heating capacity time constant in hours. This parameter models the time it takes for the system to transition from cooling-only operation to simultaneous cooling and heating, with a total response time defined as 5 time constants.
Specify the Heat Recovery Cooling Capacity Time Constant, representing the cooling capacity time constant in hours. This parameter models the time it takes for the system to transition from cooling-only operation to simultaneous cooling and heating, with a total response time defined as 5 time constants.
Specify the Initial Heat Recovery Cooling Energy Fraction, indicating the heating capacity time constant in hours. This parameter models the time it takes for the system to transition from cooling-only operation to simultaneous cooling and heating, with a total response time defined as 5 time constants.
Specify the Heat Recovery Cooling Energy Time Constant, representing the cooling energy time constant in hours. This parameter models the time it takes for the system to transition from cooling-only operation to simultaneous cooling and heating, with a total response time defined as 5 time constants.
Specify the Initial Heat Recovery Heating Capacity Fraction, indicating the fraction of heating energy consumed when the system changes from heating-only operation to simultaneous heating and cooling. It is common for the heating energy to decrease before the system recovers.
Specify the Heat Recovery Cooling Capacity Time Constant, representing the cooling capacity time constant in hours. This parameter models the time it takes for the system to change from cooling-only operation to simultaneous cooling and heating, with a total response time defined as 5 time constants.
Specify the Initial Heat Recovery Heating Energy Fraction, representing the heating capacity time constant in hours. This parameter models the time it takes for the system to transition from cooling-only operation to simultaneous cooling and heating, with a total response time defined as 5 time constants.
Specify the Heat Recovery Heating Energy Time Constant, defining the heating energy time constant in hours. This parameter models the time it takes for the system to change from cooling-only operation to simultaneous cooling and heating, with a total response time defined as 5 time constants. If this field is left blank, a default value of 0.0 is used.
Specify the Crankcase Heater Power Per Compressor, indicating the electrical power consumed by the crankcase heater in watts for each compressor. This heater operates when the outdoor temperature is below the maximum outdoor dry-bulb temperature for crankcase heater operation. The minimum value for this field is 0, and if left blank, the default value is 33 watts.
Specify the Max. Outdoor Temp. for Crankcase Heater, defining the maximum outdoor temperature in degrees Celsius below which the crankcase heater will operate. If left blank, the default value is 0 degrees Celsius. Note that this field only calculates crankcase heater power and doesn't impact heat pump performance.
Specify the Defrost Strategy, with options of reverse-cycle or resistive. In reverse-cycle, the heating cycle is periodically reversed to melt frost on the outdoor coil, while resistive uses an electric resistance heater. If left blank, the default is reverse-cycle. Defrost can be disabled by entering a resistive defrost strategy with a timed defrost control, 0 defrost time period fraction, and 0 resistive defrost heater capacity if the Maximum Outdoor Dry-Bulb Temperature for Defrost Operation is greater than the expected minimum outdoor dry-bulb temperature.
Specify the Defrost Control, choosing between timed or on-demand. Timed control calculates the defrost time period based on a fixed value of compressor runtime, whether frost has accumulated or not. If using timed defrost control, input the fractional amount of time the unit is in defrost in the "Defrost Time Period Fraction" field.
Specify the Defrost Time Period Fraction, indicating the fraction of compressor runtime when the defrost cycle is active. For instance, if the defrost cycle is active for 3.5 minutes every 60 minutes of compressor runtime, enter 3.5/60 = 0.058333. Ensure this value is greater than or equal to 0.
Specify the Defrost Heater Capacity, defining the capacity of the resistive defrost heating element in Watts. This field is applicable only when the chosen defrost strategy is 'resistive'. The value must be greater than or equal to 0, and if left blank, the default value is 0.
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