class ASHRAE9012016 < ASHRAE901 # Get applicable performance curve for capacity as a function of temperature # # @param chiller_electric_eir [OpenStudio::Model::ChillerElectricEIR] chiller object # @param compressor_type [String] compressor type # @param cooling_type [String] cooling type ('AirCooled' or 'WaterCooled') # @param chiller_tonnage [Double] chiller capacity in ton # @return [String] name of applicable cuvre, nil if not found # @todo the current assingment is meant to replicate what was in the data, it probably needs to be reviewed def chiller_electric_eir_get_cap_f_t_curve_name(chiller_electric_eir, compressor_type, cooling_type, chiller_tonnage, compliance_path) case cooling_type when 'AirCooled' return 'AirCooled_Chiller_2010_PathA_CAPFT' when 'WaterCooled' case compressor_type when 'Centrifugal' if compliance_path == 'Path A' return 'WaterCooled_Centrifugal_Chiller_2010_PathA_CAPFT' elsif compliance_path == 'Path B' return 'WaterCooled_Centrifugal_Chiller_2010_PathB_CAPFT' else return nil end when 'Reciprocating', 'Rotary Screw', 'Scroll' return 'ChlrWtrPosDispPathAAllQRatio_fTchwsTcwsSI' else return nil end else return nil end end # Get applicable performance curve for EIR as a function of temperature # # @param chiller_electric_eir [OpenStudio::Model::ChillerElectricEIR] chiller object # @param compressor_type [String] compressor type # @param cooling_type [String] cooling type ('AirCooled' or 'WaterCooled') # @param chiller_tonnage [Double] chiller capacity in ton # @return [String] name of applicable cuvre, nil if not found # @todo the current assingment is meant to replicate what was in the data, it probably needs to be reviewed def chiller_electric_eir_get_eir_f_t_curve_name(chiller_electric_eir, compressor_type, cooling_type, chiller_tonnage, compliance_path) case cooling_type when 'AirCooled' return 'AirCooled_Chiller_2010_PathA_EIRFT' when 'WaterCooled' case compressor_type when 'Centrifugal' if compliance_path == 'Path A' return 'WaterCooled_Centrifugal_Chiller_2010_PathA_EIRFT' elsif compliance_path == 'Path B' return 'WaterCooled_Centrifugal_Chiller_2010_PathB_EIRFT' else return nil end when 'Reciprocating', 'Rotary Screw', 'Scroll' return 'ChlrWtrPosDispPathAAllEIRRatio_fTchwsTcwsSI' else return nil end else return nil end end # Get applicable performance curve for EIR as a function of part load ratio # # @param chiller_electric_eir [OpenStudio::Model::ChillerElectricEIR] chiller object # @param compressor_type [String] compressor type # @param cooling_type [String] cooling type ('AirCooled' or 'WaterCooled') # @param chiller_tonnage [Double] chiller capacity in ton # @return [String] name of applicable cuvre, nil if not found # @todo the current assingment is meant to replicate what was in the data, it probably needs to be reviewed def chiller_electric_eir_get_eir_f_plr_curve_name(chiller_electric_eir, compressor_type, cooling_type, chiller_tonnage, compliance_path) case cooling_type when 'AirCooled' return 'AirCooled_Chiller_AllCapacities_2004_2010_EIRFPLR' when 'WaterCooled' case compressor_type when 'Centrifugal' return 'ChlrWtrCentPathAAllEIRRatio_fQRatio' when 'Reciprocating', 'Rotary Screw', 'Scroll' return 'ChlrWtrPosDispPathAAllEIRRatio_fQRatio' else return nil end else return nil end end end