# Classes and Defs
def clean_input(_input, _unit):
val_list = [ convert_value_to_metric(val, _unit) for val in _input]
return val_list
# ------------------------------------------------------------------------------
# Build the Default Re-Circulation Pipe Object
circulation_piping_ = PHPP_DHW_RecircPipe()
if pipe_geom_:
# Get Rhino scene inputs
circulation_piping_.set_values_from_Rhino( pipe_geom_, ghenv, _input_num=0 )
# ------------------------------------------------------------------------------
# Get GH Component inputs
if pipe_diam_:
circulation_piping_.diams = clean_input( pipe_diam_, 'MM')
if insul_thickness_:
circulation_piping_.insul_thicknesses = clean_input( insul_thickness_, 'MM')
if insul_conductivity_:
circulation_piping_.insul_conductivities = clean_input( insul_conductivity_, 'W/MK')
if insul_reflective_:
circulation_piping_.insul_reflectives = insul_reflective_
if insul_quality_:
circulation_piping_.quality = insul_quality_
if daily_period_:
circulation_piping_.period = daily_period_
preview_obj(circulation_piping_)
#-------------------------------------------------------------------
# Build the Ground Element
if '1' in str(_type):
inputs = get_input_values()
ground_element = build_slab_on_grade( floor_element, inputs )
ground_elements_.append( ground_element )
#-------------------------------------------------------------------
if '2' in str(_type):
inputs = get_input_values()
ground_element = build_heated_basement( floor_element, inputs )
ground_elements_.append( ground_element )
#-------------------------------------------------------------------
if '3' in str(_type):
inputs = get_input_values()
ground_element = build_unheated_basement( floor_element, inputs )
ground_elements_.append( ground_element )
#-------------------------------------------------------------------
if '4' in str(_type):
inputs = get_input_values()
ground_element = build_crawl_space( floor_element, inputs )
ground_elements_.append( ground_element )
#-------------------------------------------------------------------
# Add the ground element onto the HB-Room
new_room = hb_room.duplicate()
add_to_HB_model(new_room, 'ground', ground_element.to_dict(), ghenv)
HB_rooms_.append( new_room )
#-------------------------------------------------------------------
preview_obj( ground_element )
dhw_system_obj.circulation_piping[recirc_obj.id] = recirc_obj
if branch_piping_:
try:
dhw_system_obj.branch_piping = {obj.id: obj for obj in branch_piping_}
except AttributeError:
branch_obj = LBT2PH.dhw.PHPP_DHW_branch_piping()
branch_obj.set_pipe_lengths(branch_piping_, ghdoc, ghenv)
dhw_system_obj.branch_piping[branch_obj.id] = branch_obj
if tank1_: dhw_system_obj.tank1 = tank1_
if tank2_: dhw_system_obj.tank2 = tank2_
if buffer_tank_: dhw_system_obj.tank_buffer = buffer_tank_
if _solar:
dhw_system_obj.solar = _solar
msg = dhw_system_obj.check_tanks_for_solar_connection()
if msg:
ghenv.Component.AddRuntimeMessage(ghK.GH_RuntimeMessageLevel.Warning,
msg)
preview_obj(dhw_system_obj)
#-------------------------------------------------------------------------------
# Add the new System onto the HB-Rooms
HB_rooms_ = []
for hb_room in _HB_rooms:
new_hb_room = hb_room.duplicate()
new_hb_room = add_to_HB_model(
new_hb_room, 'dhw_systems',
{dhw_system_obj.id: dhw_system_obj.to_dict()}, ghenv)
HB_rooms_.append(new_hb_room)
an internal heat gain. On the contrary, dehumidification has no influence
on the thermal balance.
SEER_: Default=1. 1 litre water per kWh electricity result in an energy
efficiency ratio of 0.7. Good devices, e.g. with internal heat recovery,
achieve values of up to 2.
Returns:
dehumidCooling_:
"""
import LBT2PH
import LBT2PH.__versions__
import LBT2PH.heating_cooling
from LBT2PH.helpers import preview_obj
from LBT2PH.helpers import convert_value_to_metric
reload(LBT2PH)
reload(LBT2PH.__versions__)
reload(LBT2PH.heating_cooling)
reload(LBT2PH.helpers)
ghenv.Component.Name = "LBT2PH Cooling Dehumid"
LBT2PH.__versions__.set_component_params(ghenv, dev=False)
# ------------------------------------------------------------------------------
dehumid_cooling_ = LBT2PH.heating_cooling.PHPP_Cooling_Dehumid()
if waste_heat_to_room_: dehumid_cooling_.waste_to_room = waste_heat_to_room_
if SEER_: dehumid_cooling_.seer = convert_value_to_metric(SEER_, 'W/W')
preview_obj(dehumid_cooling_)
Returns:
variants_: Connect to the 'LBT-->PHPP' 'variants_' input.
"""
import LBT2PH
import LBT2PH.__versions__
import LBT2PH.variants
from LBT2PH.helpers import preview_obj
reload(LBT2PH)
reload(LBT2PH.__versions__)
reload(LBT2PH.variants)
ghenv.Component.Name = "LBT2PH 2PHPP Variants"
LBT2PH.__versions__.set_component_params(ghenv, dev=False)
#-------------------------------------------------------------------------------
variants_ = LBT2PH.variants.Variants(ghenv)
if windows_: variants_.windows = windows_
if u_values_: variants_.u_values = u_values_
if airtightness_: variants_.airtightness = airtightness_
if thermal_bridges_:variants_.thermal_bridges = thermal_bridges_
if certification_: variants_.certification = certification_
if primary_energy_: variants_.primary_energy = primary_energy_
if ventilation_: variants_.ventilation = ventilation_
if custom_: variants_.custom = custom_
#-------------------------------------------------------------------------------
preview_obj(variants_)
reload(LBT2PH.heating_cooling)
reload(LBT2PH.helpers)
ghenv.Component.Name = "LBT2PH Heating HP Options"
LBT2PH.__versions__.set_component_params(ghenv, dev=False)
#-------------------------------------------------------------------------------
hp_options_ = LBT2PH.heating_cooling.PHPP_HP_Options()
if _design_forward_water_temp:
hp_options_.frwd_temp = convert_value_to_metric(_design_forward_water_temp,
'C')
if hp_distribution_: hp_options_.hp_distribution = hp_distribution_
if nom_power_:
hp_options_.nom_power = convert_value_to_metric(nom_power_, 'KW')
if rad_exponent_: hp_options_.rad_exponent = rad_exponent_
if backup_type_: hp_options_.backup_type = backup_type_
if dT_elec_flow_water_:
hp_options_.dT_elec_flow = convert_value_to_metric(dT_elec_flow_water_,
'C')
if hp_priority_: hp_options_.hp_priority = hp_priority_
if hp_control_: hp_options_.hp_control = hp_control_
if depth_groundwater_:
hp_options_.depth_groundwater = convert_value_to_metric(
depth_groundwater_, 'M')
if power_groundpump_:
hp_options_.power_groundwater = convert_value_to_metric(
power_groundpump_, 'KW')
preview_obj(hp_options_)
#
"""
Set the parameters for a Panel Cooling Element. Sets the values on the 'Cooling Unit' worksheet.
-
EM March 1, 2021
Args:
SEER_: (W/W) Default=3
Returns:
panelCooling_:
"""
import LBT2PH
import LBT2PH.__versions__
import LBT2PH.heating_cooling
from LBT2PH.helpers import preview_obj
from LBT2PH.helpers import convert_value_to_metric
reload( LBT2PH )
reload(LBT2PH.__versions__)
reload( LBT2PH.heating_cooling )
reload(LBT2PH.helpers)
ghenv.Component.Name = "LBT2PH Cooling Panel"
LBT2PH.__versions__.set_component_params(ghenv, dev=False)
#-------------------------------------------------------------------------------
panel_cooling_ = LBT2PH.heating_cooling.PHPP_Cooling_Panel()
if SEER_: panel_cooling_.seer = convert_value_to_metric(SEER_, 'W/W')
preview_obj(panel_cooling_)
import LBT2PH
import LBT2PH.__versions__
from LBT2PH.helpers import preview_obj
import LBT2PH.dhw
reload(LBT2PH)
reload(LBT2PH.dhw)
reload(LBT2PH.__versions__)
ghenv.Component.Name = "LBT2PH DHW Solar Thermal"
LBT2PH.__versions__.set_component_params(ghenv, dev=False)
#-------------------------------------------------------------------------------
solar_ = LBT2PH.dhw.PHPP_DHW_Solar()
if _angle_off_north: solar_.angle_off_north = _angle_off_north
if _angle_off_horizontal: solar_.angle_off_horizontal = _angle_off_horizontal
if _host_surface: solar_.host_surface = _host_surface
if _collector_type: solar_.collector_type = _collector_type
if _collector_area: solar_.collector_area = _collector_area
if _collector_height: solar_.collector_height = _collector_height
if _horizon_height: solar_.horizon_height = _horizon_height
if _horizon_distance: solar_.horion_distance = _horizon_distance
if _additional_reduction_fac:
solar_.additional_reduction_fac = _additional_reduction_fac
if _heating_support: solar_.heating_support = _heating_support
if _dhw_priority: solar_.dhw_priority = _dhw_priority
preview_obj(solar_)
if _COPs: cops = _COPs
#-------------------------------------------------------------------------------
# Create the Heat Pump Object
heat_pump_ = LBT2PH.heating_cooling.PHPP_HP_AirSource()
if _unit_name: heat_pump_.name = _unit_name
if _source: heat_pump_.source = _source
if tsrcs:
heat_pump_.temps_sources = [
convert_value_to_metric(val, 'C') for val in tsrcs
]
if tsnks:
heat_pump_.temps_sinks = [
convert_value_to_metric(val, 'C') for val in tsnks
]
if hcs:
heat_pump_.heating_capacities = [
convert_value_to_metric(val, 'KW') for val in hcs
]
if cops:
heat_pump_.cops = [convert_value_to_metric(val, 'W/W') for val in cops]
if dt_sink_: heat_pump_.sink_dt = convert_value_to_metric(dt_sink_, 'C')
for warning in heat_pump_.warnings:
ghenv.Component.AddRuntimeMessage(ghK.GH_RuntimeMessageLevel.Warning,
warning)
preview_obj(heat_pump_)
_uValue: (List) Input value for the glazing U-Value (W/m2-k). Glass U-Value to be calculate as per EN-673 / ISO 10292
_gValue: (List) Input value for the glazing g-Value (SHGC) . Glass g-Value (~SHGC) to be calculate as per EN-410
Return:
PHPPGlazing_: A new PHPP-Style Glazing Object for use in a PHPP Window. Connect to the 'PHPP Apertures' Component.
"""
import LBT2PH
import LBT2PH.__versions__
import LBT2PH.windows
from LBT2PH.helpers import convert_value_to_metric
from LBT2PH.helpers import preview_obj
reload(LBT2PH)
reload(LBT2PH.__versions__)
reload(LBT2PH.windows)
reload(LBT2PH.helpers)
ghenv.Component.Name = "LBT2PH PHPP Aperture Glazing"
LBT2PH.__versions__.set_component_params(ghenv, dev=False)
#-------------------------------------------------------------------------------
if _name:
_name = _name.replace(" ", "_")
PHPPGlazing_ = LBT2PH.windows.PHPP_Glazing()
if _name: PHPPGlazing_.name = _name
if _gValue: PHPPGlazing_.gValue = convert_value_to_metric(_gValue, '-')
if _uValue: PHPPGlazing_.uValue = convert_value_to_metric(_uValue, 'W/M2K')
preview_obj(PHPPGlazing_)
reload(LBT2PH.__versions__)
reload(LBT2PH.dhw)
reload(LBT2PH.helpers)
ghenv.Component.Name = "LBT2PH DHW Tank"
LBT2PH.__versions__.set_component_params(ghenv, dev=False)
#-------------------------------------------------------------------------------
# Creat Storage Tank
storage_tank_ = LBT2PH.dhw.PHPP_DHW_tank()
if _tank_type: storage_tank_.type = _tank_type
if tank_solar_: storage_tank_.solar = tank_solar_
if tank_HLrate_:
storage_tank_.hl_rate = LBT2PH.dhw.clean_input(tank_HLrate_,
'tank_HLrate_', 'W/K',
ghenv)
if tank_volume_:
storage_tank_.vol = LBT2PH.dhw.clean_input(tank_volume_, 'tank_volume_',
'L', ghenv)
if tank_standby_frac_:
storage_tank_.stndbyFrac = LBT2PH.dhw.clean_input(tank_standby_frac_,
'tank_standby_frac_',
'-', ghenv)
if tank_location_: storage_tank_.location = tank_location_
if tank_location_T_:
storage_tank_.location_t = LBT2PH.dhw.clean_input(tank_location_T_,
'tank_location_T_', 'C',
ghenv)
preview_obj(storage_tank_)
> split units, energy efficiency class A: > 3.2
> compact units, energy efficiency class A: > 3.0
> turbo compressor > 500 kW with water cooling: up to more than 6
Returns:
supplyAirCooling_:
"""
import LBT2PH
import LBT2PH.__versions__
import LBT2PH.heating_cooling
from LBT2PH.helpers import preview_obj
from LBT2PH.helpers import convert_value_to_metric
reload(LBT2PH)
reload(LBT2PH.__versions__)
reload(LBT2PH.heating_cooling)
reload(LBT2PH.helpers)
ghenv.Component.Name = "LBT2PH Cooling Supply Air"
LBT2PH.__versions__.set_component_params(ghenv, dev=False)
#-------------------------------------------------------------------------------
supply_air_cooling_ = LBT2PH.heating_cooling.PHPP_Cooling_SupplyAir()
if on_off_mode_: supply_air_cooling_.on_off = on_off_mode_
if max_cooling_cap_:
supply_air_cooling_.max_capacity = convert_value_to_metric(
max_cooling_cap_, 'KW')
if SEER_: supply_air_cooling_.seer = convert_value_to_metric(SEER_, 'W/W')
preview_obj(supply_air_cooling_)
reload(LBT2PH)
reload(LBT2PH.__versions__)
reload(LBT2PH.windows)
reload(LBT2PH.helpers)
ghenv.Component.Name = "LBT2PH PHPP Aperture Frame"
LBT2PH.__versions__.set_component_params(ghenv, dev=False)
#-------------------------------------------------------------------------------
def cleanInputs(_inputList, defaultValue, _unit):
if len(_inputList)==4:
return [LBT2PH.helpers.convert_value_to_metric(val, _unit) for val in _inputList]
elif len(_inputList)==1:
val = LBT2PH.helpers.convert_value_to_metric(_inputList[0], _unit)
return [val]*4
else:
return [defaultValue]*4
if _name:
PHPPFrame_ = LBT2PH.windows.PHPP_Frame()
if _name: PHPPFrame_.name = _name.replace(" ", "_")
if _frameUvalues: PHPPFrame_.uValues = cleanInputs(_frameUvalues, 1.0, 'W/M2K')
if _frameWidths: PHPPFrame_.frameWidths = cleanInputs(_frameWidths, 0.12, 'M')
if _psiGlazings: PHPPFrame_.PsiGVals = cleanInputs(_psiGlazings, 0.04 , 'W/MK')
if _psiInstalls: PHPPFrame_.PsiInstalls = cleanInputs(_psiInstalls, 0.04, 'W/MK')
if _chi_glass_carriers: PHPPFrame_.chiGlassCarrier = LBT2PH.helpers.convert_value_to_metric(_chi_glass_carriers, 'W/K')
preview_obj(PHPPFrame_)
recircAirCooling_: """ import scriptcontext as sc import Grasshopper.Kernel as ghK import LBT2PH import LBT2PH.__versions__ import LBT2PH.heating_cooling from LBT2PH.helpers import preview_obj from LBT2PH.helpers import convert_value_to_metric reload( LBT2PH ) reload(LBT2PH.__versions__) reload( LBT2PH.heating_cooling ) reload(LBT2PH.helpers) ghenv.Component.Name = "LBT2PH Cooling Recirc" LBT2PH.__versions__.set_component_params(ghenv, dev=False) #------------------------------------------------------------------------------- recirc_air_cooling_ = LBT2PH.heating_cooling.PHPP_Cooling_RecircAir() if on_off_mode_: recirc_air_cooling_.on_off = on_off_mode_ if max_cooling_cap_: recirc_air_cooling_.max_capacity = convert_value_to_metric(max_cooling_cap_, 'KW') if vol_flow_at_nom_power_: recirc_air_cooling_.nominal_vol = convert_value_to_metric(vol_flow_at_nom_power_, 'M3/H') if variable_vol_: recirc_air_cooling_.variable_vol = variable_vol_ if SEER_: recirc_air_cooling_.seer = convert_value_to_metric(SEER_, 'W/W') preview_obj(recirc_air_cooling_)
boiler_: A Boiler object for use in the PHPP. Connect this output to the 'boiler_'
input on the 'Heating/Cooling Systems' LBT2PH Component.
"""
import Grasshopper.Kernel as ghK
import LBT2PH
import LBT2PH.__versions__
import LBT2PH.heating_cooling
from LBT2PH.helpers import preview_obj
reload(LBT2PH)
reload(LBT2PH.__versions__)
reload(LBT2PH.heating_cooling)
ghenv.Component.Name = "LBT2PH Heating Boiler"
LBT2PH.__versions__.set_component_params(ghenv, dev=False)
#-------------------------------------------------------------------------------
boiler_ = LBT2PH.heating_cooling.PHPP_Boiler()
if _type: boiler_.type = _type
if _fuel: boiler_.fuel = _fuel
if _detailed_params: boiler_.params = _detailed_params
warning_message = boiler_.check_valid_fuel()
ghenv.Component.AddRuntimeMessage(ghK.GH_RuntimeMessageLevel.Warning,
warning_message)
preview_obj(boiler_)
