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costs_workflow/life_cycle_costs.py

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"""
LifeCycleCosts calculates the life cycle costs of one building
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2022 Project Author Pilar Monsalvete Alvarez de Uribarri pilar_monsalvete@concordia.ca
Project contributor 2023 Author Oriol Gavaldà Torrellas oriol.gavalda@concordia.ca
"""
import sys
import math
from hub.hub_logger import logger
from hub.helpers.dictionaries import Dictionaries
from hub.helpers import constants as cte
class LifeCycleCosts:
# todo: this should be (city, costs_catalog) or similar
def __init__(self, building, catalog, number_of_years, consumer_price_index, discount_rate,
retrofitting_scenario):
self._building = building
self._number_of_years = number_of_years
self._consumer_price_index = consumer_price_index
self._discount_rate = discount_rate
self._cost_catalog = catalog
self._end_of_life_cost = 0
self._capital_costs_at_year_0 = 0
self._items = 0
self._fuels = 0
self._concepts = 0
self._retrofitting_scenario = retrofitting_scenario
def calculate_capital_costs(self):
building = self._building
surface_opaque = 0
surface_transparent = 0
surface_roof = 0
surface_ground = 0
factor_pv=0.5
factor_heating_power=0.1 #kW/m2
factor_cooling_power=0.1 #kW/m2
total_floor_area=0
try:
function = Dictionaries().hub_function_to_montreal_custom_costs_function[building.function]
archetype = self._search_archetype(self._cost_catalog, function)
except KeyError:
logger.error(f'Building {building.name} has unknown costs archetype for building function: '
f'{building.function}\n')
sys.stderr.write(f'Building {building.name} has unknown costs archetype for building function: '
f'{building.function}\n')
return
for internal_zone in building.internal_zones:
for thermal_zone in internal_zone.thermal_zones:
total_floor_area+=thermal_zone.total_floor_area
print(total_floor_area)
for thermal_boundary in thermal_zone.thermal_boundaries:
if thermal_boundary.type == 'Ground':
surface_ground += thermal_boundary.opaque_area
elif thermal_boundary.type == 'Roof':
surface_roof += thermal_boundary.opaque_area
elif thermal_boundary.type == 'Wall':
surface_opaque += thermal_boundary.opaque_area * (1-thermal_boundary.window_ratio)
surface_transparent += thermal_boundary.opaque_area * thermal_boundary.window_ratio
print(f'total floor area {total_floor_area}')
chapters = archetype.capital_cost
capital_cost_skin=0
capital_cost_services=0
if self._retrofitting_scenario == 1 or self._retrofitting_scenario == 3:
chapter = chapters.chapter('B_shell')
capital_cost_opaque = surface_opaque * chapter.item('B2010_opaque_walls').refurbishment[0]
capital_cost_transparent = surface_transparent * chapter.item('B2020_transparent').refurbishment[0]
capital_cost_roof = surface_roof * chapter.item('B3010_opaque_roof').refurbishment[0]
capital_cost_ground = surface_ground * chapter.item('B10_superstructure').refurbishment[0]
capital_cost_skin= capital_cost_opaque+capital_cost_transparent+capital_cost_roof+capital_cost_ground
print (f'capital cost skin {capital_cost_skin}')
if self._retrofitting_scenario == 2 or self._retrofitting_scenario == 3:
chapter = chapters.chapter('D_services')
capital_cost_pv = surface_roof * factor_pv * chapter.item('D301010_photovoltaic_system').initial_investment[0]
capital_cost_heating_equipment = total_floor_area * factor_heating_power * chapter.item('D3020_heat_generating_systems').initial_investment[0]
capital_cost_cooling_equipment = total_floor_area * factor_cooling_power * chapter.item('D3030_cooling_generation_systems').initial_investment[0]
capital_cost_distribution_equipment = total_floor_area * factor_cooling_power * chapter.item('D3040_distribution_systems').initial_investment[0]
capital_cost_other_hvac_ahu = total_floor_area * factor_cooling_power * chapter.item('D3080_other_hvac_ahu').initial_investment[0]
capital_cost_lighting = total_floor_area * factor_pv * chapter.item('D5020_lighting_and_branch_wiring').initial_investment[0]
capital_cost_services=capital_cost_pv+capital_cost_heating_equipment+capital_cost_cooling_equipment+capital_cost_distribution_equipment+capital_cost_other_hvac_ahu+capital_cost_lighting
capital_cost_subtotal = capital_cost_skin + capital_cost_services
capital_cost_total= capital_cost_subtotal*(1+chapters.design_allowance)*(1+chapters.overhead_and_profit)
return capital_cost_total
@staticmethod
def _search_archetype(costs_catalog, function):
costs_archetypes = costs_catalog.entries('archetypes').archetypes
for building_archetype in costs_archetypes:
if str(function) == str(building_archetype.function):
return building_archetype
raise KeyError('archetype not found')
def calculate_end_of_life_costs(self):
building = self._building
total_floor_area = 0
try:
function = Dictionaries().hub_function_to_montreal_custom_costs_function[building.function]
archetype = self._search_archetype(self._cost_catalog, function)
except KeyError:
logger.error(f'Building {building.name} has unknown costs archetype for building function: '
f'{building.function}\n')
sys.stderr.write(f'Building {building.name} has unknown costs archetype for building function: '
f'{building.function}\n')
return
for internal_zone in building.internal_zones:
for thermal_zone in internal_zone.thermal_zones:
total_floor_area += thermal_zone.total_floor_area
print(total_floor_area)
price_increase = 0
for year in range(1, self._number_of_years + 1):
price_increase += math.pow(1 + self._consumer_price_index, year) / math.pow(1 + self._discount_rate, year)
price_increase_average = price_increase/self._number_of_years
return total_floor_area*archetype.end_of_life_cost*price_increase_average
def calculate_total_operational_costs(self):
total_operational_costs = 0
peak_cost=0
monthly_cost=0
variable_cost=0
building = self._building
total_floor_area = 0
try:
function = Dictionaries().hub_function_to_montreal_custom_costs_function[building.function]
archetype = self._search_archetype(self._cost_catalog, function)
except KeyError:
logger.error(f'Building {building.name} has unknown costs archetype for building function: '
f'{building.function}\n')
sys.stderr.write(f'Building {building.name} has unknown costs archetype for building function: '
f'{building.function}\n')
return
for internal_zone in building.internal_zones:
for thermal_zone in internal_zone.thermal_zones:
total_floor_area += thermal_zone.total_floor_area
if self._retrofitting_scenario==1 or self._retrofitting_scenario==3:
specific_heating_demand=50
else:
specific_heating_demand=190
heating_demand= specific_heating_demand * total_floor_area
cooling_demand= 10 * total_floor_area
if self._retrofitting_scenario==2 or self._retrofitting_scenario==3:
heating_SCOP=1
cooling_SEER=2.8
else:
heating_SCOP = 2.5
cooling_SEER = 4
electricity_heating=heating_demand/heating_SCOP
electricity_cooling=cooling_demand/cooling_SEER
electricity_lighting=11* total_floor_area
electricity_plug_loads=19*total_floor_area
domestic_hot_water_demand= 50* total_floor_area
total_electricity_consumption= electricity_cooling+electricity_heating+electricity_lighting+domestic_hot_water_demand+electricity_plug_loads
peak_electricity_demand= 0.1*total_floor_area
operational_cost_year_0=total_electricity_consumption*archetype.operational_cost.fuels[0].variable[0]
peak_cost_year_0=peak_electricity_demand*archetype.operational_cost.fuels[0].fixed_power*12
monthly_cost_year_0=archetype.operational_cost.fuels[0].fixed_monthly*12*(total_floor_area/100)
print(f'operational_cost_year_0 {operational_cost_year_0}')
print(f'peak_cost_year_0 {peak_cost_year_0}')
print(f'monthly_cost_year_0 {monthly_cost_year_0}')
for year in range(1, self._number_of_years + 1):
peak_cost += operational_cost_year_0 \
* math.pow(1 + self._consumer_price_index, year) / math.pow(1 + self._discount_rate, year)
monthly_cost +=peak_cost_year_0 \
* math.pow(1 + self._consumer_price_index, year) / math.pow(1 + self._discount_rate, year)
variable_cost +=monthly_cost_year_0 \
* math.pow(1 + self._consumer_price_index, year) / math.pow(1 + self._discount_rate, year)
total_operational_costs = peak_cost + monthly_cost + variable_cost
return total_operational_costs
def calculate_total_maintenance_costs(self):
building = self._building
total_floor_area = 0
factor_pv = 0.5
factor_heating_power = 0.1 # kW/m2
factor_cooling_power = 0.1 # kW/m2
surface_roof = 0
maintenance_pv = 0
maintenance_heating = 0
maintenance_cooling = 0
try:
function = Dictionaries().hub_function_to_montreal_custom_costs_function[building.function]
archetype = self._search_archetype(self._cost_catalog, function)
except KeyError:
logger.error(f'Building {building.name} has unknown costs archetype for building function: '
f'{building.function}\n')
sys.stderr.write(f'Building {building.name} has unknown costs archetype for building function: '
f'{building.function}\n')
return
for internal_zone in building.internal_zones:
for thermal_zone in internal_zone.thermal_zones:
total_floor_area+=thermal_zone.total_floor_area
for thermal_boundary in thermal_zone.thermal_boundaries:
if thermal_boundary.type == 'Roof':
surface_roof += thermal_boundary.opaque_area
surface_pv = surface_roof*factor_pv
maintenance_pv_0=surface_pv*archetype.operational_cost.maintenance_pv
maintenance_heating_0=total_floor_area*factor_heating_power*archetype.operational_cost.maintenance_heating
maintenance_cooling_0=total_floor_area*factor_cooling_power*archetype.operational_cost.maintenance_cooling
for year in range(1, self._number_of_years + 1):
costs_increase = math.pow(1 + self._consumer_price_index, year) / math.pow(1 + self._discount_rate, year)
maintenance_pv +=maintenance_pv_0*costs_increase
maintenance_heating +=maintenance_heating_0*costs_increase
maintenance_cooling +=maintenance_cooling_0*costs_increase
total_maintenance_costs = maintenance_pv + maintenance_heating + maintenance_cooling
return total_maintenance_costs
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