class Standard
# @!group CoilCoolingDXTwoSpeed
include CoilDX
# Finds capacity in W
#
# @param coil_cooling_dx_two_speed [OpenStudio::Model::CoilCoolingDXTwoSpeed] coil cooling dx two speed object
# @return [Double] capacity in W to be used for find object
def coil_cooling_dx_two_speed_find_capacity(coil_cooling_dx_two_speed)
capacity_w = nil
if coil_cooling_dx_two_speed.ratedHighSpeedTotalCoolingCapacity.is_initialized
capacity_w = coil_cooling_dx_two_speed.ratedHighSpeedTotalCoolingCapacity.get
elsif coil_cooling_dx_two_speed.autosizedRatedHighSpeedTotalCoolingCapacity.is_initialized
capacity_w = coil_cooling_dx_two_speed.autosizedRatedHighSpeedTotalCoolingCapacity.get
else
OpenStudio.logFree(OpenStudio::Warn, 'openstudio.standards.CoilCoolingDXTwoSpeed', "For #{coil_cooling_dx_two_speed.name} capacity is not available, cannot apply efficiency standard.")
return 0.0
end
return capacity_w
end
# Finds lookup object in standards and return efficiency
#
# @param coil_cooling_dx_two_speed [OpenStudio::Model::CoilCoolingDXTwoSpeed] coil cooling dx two speed object
# @param rename [Boolean] if true, object will be renamed to include capacity and efficiency level
# @return [Double] full load efficiency (COP)
def coil_cooling_dx_two_speed_standard_minimum_cop(coil_cooling_dx_two_speed, rename = false)
search_criteria = coil_dx_find_search_criteria(coil_cooling_dx_two_speed)
cooling_type = search_criteria['cooling_type']
heating_type = search_criteria['heating_type']
sub_category = search_criteria['subcategory']
capacity_w = coil_cooling_dx_two_speed_find_capacity(coil_cooling_dx_two_speed)
capacity_btu_per_hr = OpenStudio.convert(capacity_w, 'W', 'Btu/hr').get
capacity_kbtu_per_hr = OpenStudio.convert(capacity_w, 'W', 'kBtu/hr').get
# Lookup efficiencies depending on whether it is a unitary AC or a heat pump
ac_props = nil
ac_props = if coil_dx_heat_pump?(coil_cooling_dx_two_speed)
model_find_object(standards_data['heat_pumps'], search_criteria, capacity_btu_per_hr, Date.today)
else
model_find_object(standards_data['unitary_acs'], search_criteria, capacity_btu_per_hr, Date.today)
end
# Check to make sure properties were found
if ac_props.nil?
OpenStudio.logFree(OpenStudio::Warn, 'openstudio.standards.CoilCoolingDXTwoSpeed', "For #{coil_cooling_dx_two_speed.name}, cannot find efficiency info using #{search_criteria}, cannot apply efficiency standard.")
successfully_set_all_properties = false
return successfully_set_all_properties
end
# Get the minimum efficiency standards
cop = nil
# Check to make sure properties were found
if ac_props.nil?
OpenStudio.logFree(OpenStudio::Warn, 'openstudio.standards.CoilCoolingDXTwoSpeed', "For #{coil_cooling_dx_two_speed.name}, cannot find efficiency info using #{search_criteria}, cannot apply efficiency standard.")
return cop # value of nil
end
# If specified as SEER
unless ac_props['minimum_seasonal_energy_efficiency_ratio'].nil?
min_seer = ac_props['minimum_seasonal_energy_efficiency_ratio']
cop = seer_to_cop_no_fan(min_seer)
new_comp_name = "#{coil_cooling_dx_two_speed.name} #{capacity_kbtu_per_hr.round}kBtu/hr #{min_seer}SEER"
OpenStudio.logFree(OpenStudio::Info, 'openstudio.standards.CoilCoolingDXTwoSpeed', "For #{template}: #{coil_cooling_dx_two_speed.name}: #{cooling_type} #{heating_type} #{sub_category} Capacity = #{capacity_kbtu_per_hr.round}kBtu/hr; SEER = #{min_seer}")
end
# If specified as EER
unless ac_props['minimum_energy_efficiency_ratio'].nil?
min_eer = ac_props['minimum_energy_efficiency_ratio']
cop = eer_to_cop_no_fan(min_eer)
new_comp_name = "#{coil_cooling_dx_two_speed.name} #{capacity_kbtu_per_hr.round}kBtu/hr #{min_eer}EER"
OpenStudio.logFree(OpenStudio::Info, 'openstudio.standards.CoilCoolingDXTwoSpeed', "For #{template}: #{coil_cooling_dx_two_speed.name}: #{cooling_type} #{heating_type} #{sub_category} Capacity = #{capacity_kbtu_per_hr.round}kBtu/hr; EER = #{min_eer}")
end
# if specified as SEER (heat pump)
unless ac_props['minimum_seasonal_efficiency'].nil?
min_seer = ac_props['minimum_seasonal_efficiency']
cop = seer_to_cop_no_fan(min_seer)
new_comp_name = "#{coil_cooling_dx_two_speed.name} #{capacity_kbtu_per_hr.round}kBtu/hr #{min_seer}SEER"
OpenStudio.logFree(OpenStudio::Info, 'openstudio.standards.CoilCoolingDXTwoSpeed', "For #{template}: #{coil_cooling_dx_two_speed.name}: #{cooling_type} #{heating_type} #{sub_category} Capacity = #{capacity_kbtu_per_hr.round}kBtu/hr; SEER = #{min_seer}")
end
# If specified as EER (heat pump)
unless ac_props['minimum_full_load_efficiency'].nil?
min_eer = ac_props['minimum_full_load_efficiency']
cop = eer_to_cop_no_fan(min_eer)
new_comp_name = "#{coil_cooling_dx_two_speed.name} #{capacity_kbtu_per_hr.round}kBtu/hr #{min_eer}EER"
OpenStudio.logFree(OpenStudio::Info, 'openstudio.standards.CoilCoolingDXTwoSpeed', "For #{template}: #{coil_cooling_dx_two_speed.name}: #{cooling_type} #{heating_type} #{sub_category} Capacity = #{capacity_kbtu_per_hr.round}kBtu/hr; EER = #{min_eer}")
end
# Rename
if rename
coil_cooling_dx_two_speed.setName(new_comp_name)
end
return cop
end
# Applies the standard efficiency ratings and typical performance curves to this object.
#
# @param coil_cooling_dx_two_speed [OpenStudio::Model::CoilCoolingDXTwoSpeed] coil cooling dx two speed object
# @param sql_db_vars_map [Hash] hash map
# @return [Hash] hash of coil objects
def coil_cooling_dx_two_speed_apply_efficiency_and_curves(coil_cooling_dx_two_speed, sql_db_vars_map)
successfully_set_all_properties = true
# Get the search criteria
search_criteria = coil_dx_find_search_criteria(coil_cooling_dx_two_speed)
# Get the capacity
capacity_w = coil_cooling_dx_two_speed_find_capacity(coil_cooling_dx_two_speed)
capacity_btu_per_hr = OpenStudio.convert(capacity_w, 'W', 'Btu/hr').get
capacity_kbtu_per_hr = OpenStudio.convert(capacity_w, 'W', 'kBtu/hr').get
# Lookup efficiencies depending on whether it is a unitary AC or a heat pump
ac_props = nil
ac_props = if coil_dx_heat_pump?(coil_cooling_dx_two_speed)
model_find_object(standards_data['heat_pumps'], search_criteria, capacity_btu_per_hr, Date.today)
else
model_find_object(standards_data['unitary_acs'], search_criteria, capacity_btu_per_hr, Date.today)
end
# Check to make sure properties were found
if ac_props.nil?
OpenStudio.logFree(OpenStudio::Warn, 'openstudio.standards.CoilCoolingDXTwoSpeed', "For #{coil_cooling_dx_two_speed.name}, cannot find efficiency info using #{search_criteria}, cannot apply efficiency standard.")
successfully_set_all_properties = false
return sql_db_vars_map
end
# Make the total COOL-CAP-FT curve
tot_cool_cap_ft = model_add_curve(coil_cooling_dx_two_speed.model, ac_props['cool_cap_ft'])
if tot_cool_cap_ft
coil_cooling_dx_two_speed.setTotalCoolingCapacityFunctionOfTemperatureCurve(tot_cool_cap_ft)
else
OpenStudio.logFree(OpenStudio::Warn, 'openstudio.standards.CoilCoolingDXTwoSpeed', "For #{coil_cooling_dx_two_speed.name}, cannot find cool_cap_ft curve, will not be set.")
successfully_set_all_properties = false
end
# Make the total COOL-CAP-FFLOW curve
tot_cool_cap_fflow = model_add_curve(coil_cooling_dx_two_speed.model, ac_props['cool_cap_fflow'])
if tot_cool_cap_fflow
coil_cooling_dx_two_speed.setTotalCoolingCapacityFunctionOfFlowFractionCurve(tot_cool_cap_fflow)
else
OpenStudio.logFree(OpenStudio::Warn, 'openstudio.standards.CoilCoolingDXTwoSpeed', "For #{coil_cooling_dx_two_speed.name}, cannot find cool_cap_fflow curve, will not be set.")
successfully_set_all_properties = false
end
# Make the COOL-EIR-FT curve
cool_eir_ft = model_add_curve(coil_cooling_dx_two_speed.model, ac_props['cool_eir_ft'])
if cool_eir_ft
coil_cooling_dx_two_speed.setEnergyInputRatioFunctionOfTemperatureCurve(cool_eir_ft)
else
OpenStudio.logFree(OpenStudio::Warn, 'openstudio.standards.CoilCoolingDXTwoSpeed', "For #{coil_cooling_dx_two_speed.name}, cannot find cool_eir_ft curve, will not be set.")
successfully_set_all_properties = false
end
# Make the COOL-EIR-FFLOW curve
cool_eir_fflow = model_add_curve(coil_cooling_dx_two_speed.model, ac_props['cool_eir_fflow'])
if cool_eir_fflow
coil_cooling_dx_two_speed.setEnergyInputRatioFunctionOfFlowFractionCurve(cool_eir_fflow)
else
OpenStudio.logFree(OpenStudio::Warn, 'openstudio.standards.CoilCoolingDXTwoSpeed', "For #{coil_cooling_dx_two_speed.name}, cannot find cool_eir_fflow curve, will not be set.")
successfully_set_all_properties = false
end
# Make the COOL-PLF-FPLR curve
cool_plf_fplr = model_add_curve(coil_cooling_dx_two_speed.model, ac_props['cool_plf_fplr'])
if cool_plf_fplr
coil_cooling_dx_two_speed.setPartLoadFractionCorrelationCurve(cool_plf_fplr)
else
OpenStudio.logFree(OpenStudio::Warn, 'openstudio.standards.CoilCoolingDXTwoSpeed', "For #{coil_cooling_dx_two_speed.name}, cannot find cool_plf_fplr curve, will not be set.")
successfully_set_all_properties = false
end
# Make the low speed COOL-CAP-FT curve
low_speed_cool_cap_ft = model_add_curve(coil_cooling_dx_two_speed.model, ac_props['cool_cap_ft'])
if low_speed_cool_cap_ft
coil_cooling_dx_two_speed.setLowSpeedTotalCoolingCapacityFunctionOfTemperatureCurve(low_speed_cool_cap_ft)
else
OpenStudio.logFree(OpenStudio::Warn, 'openstudio.standards.CoilCoolingDXTwoSpeed', "For #{coil_cooling_dx_two_speed.name}, cannot find cool_cap_ft curve, will not be set.")
successfully_set_all_properties = false
end
# Make the low speed COOL-EIR-FT curve
low_speed_cool_eir_ft = model_add_curve(coil_cooling_dx_two_speed.model, ac_props['cool_eir_ft'])
if low_speed_cool_eir_ft
coil_cooling_dx_two_speed.setLowSpeedEnergyInputRatioFunctionOfTemperatureCurve(low_speed_cool_eir_ft)
else
OpenStudio.logFree(OpenStudio::Warn, 'openstudio.standards.CoilCoolingDXTwoSpeed', "For #{coil_cooling_dx_two_speed.name}, cannot find cool_eir_ft curve, will not be set.")
successfully_set_all_properties = false
end
# Preserve the original name
orig_name = coil_cooling_dx_two_speed.name.to_s
# Find the minimum COP and rename with efficiency rating
cop = coil_cooling_dx_two_speed_standard_minimum_cop(coil_cooling_dx_two_speed, true)
# Map the original name to the new name
sql_db_vars_map[coil_cooling_dx_two_speed.name.to_s] = orig_name
# Set the efficiency values
unless cop.nil?
coil_cooling_dx_two_speed.setRatedHighSpeedCOP(cop)
coil_cooling_dx_two_speed.setRatedLowSpeedCOP(cop)
end
return sql_db_vars_map
end
end