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Created February 14, 2021 14:15
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CityEnergyAnalyst #2932 test run
Raw
cea-tests.log
(venv) root@bc0104206613:/CityEnergyAnalyst/CityEnergyAnalyst# cea test
City Energy Analyst version 3.15.0
Running `cea test` with the following parameters:
- test:workflow = quick
(default: quick)
Setting general:multiprocessing=True
Setting radiation:daysim-bin-directory=${CEA_radiation_daysim-bin-directory}
================================================================================
Workflow step 1: script=run-unit-tests
================================================================================
Running run_unit_tests with args {}
City Energy Analyst version 3.15.0
Running `cea run-unit-tests` with the following parameters:
read input files
done
Using single process
Schedule for building No. 1 completed out of 1: B1011
.Using single process
Schedule for building No. 1 completed out of 1: B1014
Using single process
Schedule for building No. 1 completed out of 1: B1004
Using single process
Schedule for building No. 1 completed out of 1: B1007
Using single process
Schedule for building No. 1 completed out of 1: B1005
Using single process
Schedule for building No. 1 completed out of 1: B1008
Using single process
Schedule for building No. 1 completed out of 1: B1009
Using single process
Schedule for building No. 1 completed out of 1: B1006
Using single process
Schedule for building No. 1 completed out of 1: B1000
Using single process
Schedule for building No. 1 completed out of 1: B1001
Using single process
Schedule for building No. 1 completed out of 1: B1002
Using single process
Schedule for building No. 1 completed out of 1: B1003
Using single process
Schedule for building No. 1 completed out of 1: B1013
Using single process
Schedule for building No. 1 completed out of 1: B1012
Using single process
Schedule for building No. 1 completed out of 1: B1011
Using single process
Schedule for building No. 1 completed out of 1: B1010
.Running demand calculation for scenario /tmp/reference-case-open/baseline
Running demand calculation with dynamic infiltration=False
Running demand calculation with multiprocessing=True
................Running data-intializer with scenario = ${TEMP}/reference-case-open/baseline
Running data-intializer with databases located in = /CityEnergyAnalyst/CityEnergyAnalyst/cea/databases/CH
Copying databases from /CityEnergyAnalyst/CityEnergyAnalyst/cea/databases/CH
Copying databases to ${TEMP}/reference-case-open/baseline/inputs/technology
Polygon `site` created in ${TEMP}/reference-case-open/baseline/inputs/building-geometry
Warning! you have not indicated a height or number of floors above ground for the buildings, we are reverting to data stored in Open Street Maps (It might not be accurate at all),if we do not find data in OSM for a particular building, we get the median in the surroundings, if we do not get any data we assume 4 floors per building
Warning! you have not indicated a year of construction for the buildings, we are reverting to data stored in Open Street Maps (It might not be accurate at all),if we do not find data in OSM for a particular building, we get the median in the surroundings, if we do not get any data we assume all buildings being constructed in the year 2000
/venv/lib/python3.8/site-packages/xlrd/xlsx.py:266: DeprecationWarning:
This method will be removed in future versions. Use 'tree.iter()' or 'list(tree.iter())' instead.
/venv/lib/python3.8/site-packages/xlrd/xlsx.py:312: DeprecationWarning:
This method will be removed in future versions. Use 'tree.iter()' or 'list(tree.iter())' instead.
Calculating surrounding area
Getting building footprints
/venv/lib/python3.8/site-packages/osmnx/footprints.py:166: UserWarning:
The `footprints` module has been deprecated and will be removed in a future release. Instead, use the `geometries` module's `geometries_from_polygon` function, passing `tags={'building':True}`.
Removing unwanted buildings
Warning! you have not indicated a height or number of floors above ground for the buildings, we are reverting to data stored in Open Street Maps (It might not be accurate at all),if we do not find data in OSM for a particular building, we get the median in the surroundings, if we do not get any data we assume 4 floors per building
generating terrain from Surroundings area
Proceeding to calculate terrain file with fixed elevation in m of 1
generating streets from Surroundings Geometry
Running archetypes-mapper with scenario = ${TEMP}/reference-case-open/baseline
/venv/lib/python3.8/site-packages/xlrd/xlsx.py:266: DeprecationWarning:
This method will be removed in future versions. Use 'tree.iter()' or 'list(tree.iter())' instead.
/venv/lib/python3.8/site-packages/xlrd/xlsx.py:312: DeprecationWarning:
This method will be removed in future versions. Use 'tree.iter()' or 'list(tree.iter())' instead.
/venv/lib/python3.8/site-packages/xlrd/xlsx.py:266: DeprecationWarning:
This method will be removed in future versions. Use 'tree.iter()' or 'list(tree.iter())' instead.
/venv/lib/python3.8/site-packages/xlrd/xlsx.py:312: DeprecationWarning:
This method will be removed in future versions. Use 'tree.iter()' or 'list(tree.iter())' instead.
./CityEnergyAnalyst/CityEnergyAnalyst/cea/plots/demand/comfort_chart.py:358: DeprecationWarning:
invalid escape sequence \m
.{'1ST_USE': {'B1011': 'OFFICE', 'B1012': 'OFFICE'}, '1ST_USE_R': {'B1011': 0.5, 'B1012': 0.6}, '2ND_USE': {'B1011': 'SERVERROOM', 'B1012': 'LAB'}, '2ND_USE_R': {'B1011': 0.5, 'B1012': 0.2}, '3RD_USE': {'B1011': 'NONE', 'B1012': 'INDUSTRIAL'}, '3RD_USE_R': {'B1011': 0.0, 'B1012': 0.2}, 'X_ghpax': {'B1011': 80.0, 'B1012': 97.26027397260273}, 'El_Wm2': {'B1011': 7.95, 'B1012': 14.94}, 'Occ_m2pax': {'B1011': 0.0, 'B1012': 0.0}}
.read input files
done
Using single process
Schedule for building No. 1 completed out of 15: B1000
Schedule for building No. 2 completed out of 15: B1001
Schedule for building No. 3 completed out of 15: B1002
Schedule for building No. 4 completed out of 15: B1003
Schedule for building No. 5 completed out of 15: B1004
Schedule for building No. 6 completed out of 15: B1005
Schedule for building No. 7 completed out of 15: B1006
Schedule for building No. 8 completed out of 15: B1007
Schedule for building No. 9 completed out of 15: B1008
Schedule for building No. 10 completed out of 15: B1009
Schedule for building No. 11 completed out of 15: B1010
Schedule for building No. 12 completed out of 15: B1011
Schedule for building No. 13 completed out of 15: B1012
Schedule for building No. 14 completed out of 15: B1013
Schedule for building No. 15 completed out of 15: B1014
...........Error in column PVT_metadata_results:intersection:
values property do not match range properties. values: {0,1}, min: None, max: None
Error in column PV_metadata_results:intersection:
values property do not match range properties. values: {0,1}, min: None, max: None
Error in column SC_metadata_results:intersection:
values property do not match range properties. values: {0,1}, min: None, max: None
Error in column get_building_comfort:Ve_lpspax:
values property do not match range properties. values: {0.0...n}, min: 5.5, max: None
Error in column get_radiation_building_sensors:srf0:
values property not in '{n...n}' format. Got: 'TODO'
Error in column get_radiation_metadata:intersection:
values property do not match range properties. values: {0,1}, min: None, max: None
Error in column get_thermal_network_edge_node_matrix_file:PIPE0:
values property not in '{n...n}' format. Got: '{-1, 0, 1}'
Error in column get_weather_file:Albedo (index = 32):
values property not in '{n...n}' format. Got: 'TODO'
Error in column get_weather_file:aerosol_opt_thousandths (index = 29):
values property not in '{n...n}' format. Got: 'TODO'
Error in column get_weather_file:atmos_Pa (index = 9):
values property not in '{n...n}' format. Got: 'TODO'
Error in column get_weather_file:ceiling_hgt_m (index = 25):
values property not in '{n...n}' format. Got: 'TODO'
Error in column get_weather_file:day (index = 2):
values property not in '{n...n}' format. Got: 'TODO'
Error in column get_weather_file:days_last_snow (index = 31):
values property not in '{n...n}' format. Got: 'TODO'
Error in column get_weather_file:dewpoint_C (index = 7):
values property not in '{n...n}' format. Got: 'TODO'
Error in column get_weather_file:difhorillum_lux (index = 18):
values property not in '{n...n}' format. Got: 'TODO'
Error in column get_weather_file:difhorrad_Whm2 (index = 15):
values property not in '{n...n}' format. Got: 'TODO'
Error in column get_weather_file:dirnorillum_lux (index = 17):
values property not in '{n...n}' format. Got: 'TODO'
Error in column get_weather_file:dirnorrad_Whm2 (index = 14):
values property not in '{n...n}' format. Got: 'TODO'
Error in column get_weather_file:drybulb_C (index = 6):
values property not in '{n...n}' format. Got: 'TODO'
Error in column get_weather_file:extdirrad_Whm2 (index = 11):
values property not in '{n...n}' format. Got: 'TODO'
Error in column get_weather_file:exthorrad_Whm2 (index = 10):
values property not in '{n...n}' format. Got: 'TODO'
Error in column get_weather_file:glohorillum_lux (index = 16):
values property not in '{n...n}' format. Got: 'TODO'
Error in column get_weather_file:glohorrad_Whm2 (index = 13):
values property not in '{n...n}' format. Got: 'TODO'
Error in column get_weather_file:horirsky_Whm2 (index = 12):
values property not in '{n...n}' format. Got: 'TODO'
Error in column get_weather_file:hour (index = 3):
values property not in '{n...n}' format. Got: 'TODO'
Error in column get_weather_file:liq_precip_depth_mm (index = 33):
values property not in '{n...n}' format. Got: 'TODO'
Error in column get_weather_file:liq_precip_rate_Hour (index = 34):
values property not in '{n...n}' format. Got: 'TODO'
Error in column get_weather_file:minute (index = 4):
values property not in '{n...n}' format. Got: 'TODO'
Error in column get_weather_file:month (index = 1):
values property not in '{n...n}' format. Got: 'TODO'
Error in column get_weather_file:opaqskycvr_tenths (index = 23):
values property not in '{n...n}' format. Got: 'TODO'
Error in column get_weather_file:precip_wtr_mm (index = 28):
values property not in '{n...n}' format. Got: 'TODO'
Error in column get_weather_file:presweathcodes (index = 27):
values property not in '{n...n}' format. Got: 'TODO'
Error in column get_weather_file:presweathobs (index = 26):
values property not in '{n...n}' format. Got: 'TODO'
Error in column get_weather_file:relhum_percent (index = 8):
values property not in '{n...n}' format. Got: 'TODO'
Error in column get_weather_file:snowdepth_cm (index = 30):
values property not in '{n...n}' format. Got: 'TODO'
Error in column get_weather_file:totskycvr_tenths (index = 22):
values property not in '{n...n}' format. Got: 'TODO'
Error in column get_weather_file:visibility_km (index = 24):
values property not in '{n...n}' format. Got: 'TODO'
Error in column get_weather_file:winddir_deg (index = 20):
values property not in '{n...n}' format. Got: 'TODO'
Error in column get_weather_file:windspd_ms (index = 21):
values property not in '{n...n}' format. Got: 'TODO'
Error in column get_weather_file:year (index = 0):
values property not in '{n...n}' format. Got: 'TODO'
Error in column get_weather_file:zenlum_lux (index = 19):
values property not in '{n...n}' format. Got: 'TODO'
.....
----------------------------------------------------------------------
Ran 37 tests in 216.785s
OK
-----------------------------------------
Script completed. Execution time: 227.04s
--------------------------------------------------------------------------------
================================================================================
Workflow step 2: script=extract-reference-case
================================================================================
Running extract_reference_case with args {'destination': '{general:project}/..', 'case': 'open'}
City Energy Analyst version 3.15.0
Running `cea extract-reference-case` with the following parameters:
- extract-reference-case:destination = /CityEnergyAnalyst/CityEnergyAnalyst/${TEMP}
(default: /CityEnergyAnalyst)
- extract-reference-case:case = open
(default: open)
----------------------------------------
Script completed. Execution time: 23.10s
--------------------------------------------------------------------------------
Setting general:scenario-name=baseline
================================================================================
Workflow step 4: script=data-initializer
================================================================================
Running data_initializer with args {'scenario': '${TEMP}/reference-case-open/baseline', 'databases_path': 'CH', 'databases': ['archetypes', 'assemblies', 'components']}
City Energy Analyst version 3.15.0
Running `cea data-initializer` with the following parameters:
- general:scenario = ${TEMP}/reference-case-open/baseline
(default: {general:project}/{general:scenario-name})
- data-initializer:databases-path = /CityEnergyAnalyst/CityEnergyAnalyst/cea/databases/CH
(default: )
- data-initializer:databases = ['archetypes', 'assemblies', 'components']
(default: ['archetypes', 'assemblies', 'components'])
Running data-intializer with scenario = ${TEMP}/reference-case-open/baseline
Running data-intializer with databases located in = /CityEnergyAnalyst/CityEnergyAnalyst/cea/databases/CH
Copying databases from /CityEnergyAnalyst/CityEnergyAnalyst/cea/databases/CH
Copying databases to ${TEMP}/reference-case-open/baseline/inputs/technology
---------------------------------------
Script completed. Execution time: 1.17s
--------------------------------------------------------------------------------
================================================================================
Workflow step 5: script=archetypes-mapper
================================================================================
Running archetypes_mapper with args {'scenario': '${TEMP}/reference-case-open/baseline', 'input_databases': ['comfort', 'architecture', 'air-conditioning', 'internal-loads', 'supply', 'schedules'], 'buildings': ['B1000', 'B1001', 'B1002', 'B1003', 'B1004', 'B1005', 'B1006', 'B1007', 'B1008', 'B1009', 'B1010', 'B1011', 'B1012', 'B1013', 'B1014']}
City Energy Analyst version 3.15.0
Running `cea archetypes-mapper` with the following parameters:
- general:scenario = ${TEMP}/reference-case-open/baseline
(default: {general:project}/{general:scenario-name})
- archetypes-mapper:input-databases = ['comfort', 'architecture', 'air-conditioning', 'internal-loads', 'supply', 'schedules']
(default: ['comfort', 'architecture', 'air-conditioning', 'internal-loads', 'supply', 'schedules'])
- archetypes-mapper:buildings = ['B1000', 'B1001', 'B1002', 'B1003', 'B1004', 'B1005', 'B1006', 'B1007', 'B1008', 'B1009', 'B1010', 'B1011', 'B1012', 'B1013', 'B1014']
(default: ['B1000', 'B1001', 'B1002', 'B1003', 'B1004', 'B1005', 'B1006', 'B1007', 'B1008', 'B1009', 'B1010', 'B1011', 'B1012', 'B1013', 'B1014'])
Running archetypes-mapper with scenario = ${TEMP}/reference-case-open/baseline
---------------------------------------
Script completed. Execution time: 2.23s
--------------------------------------------------------------------------------
================================================================================
Workflow step 6: script=weather-helper
================================================================================
Running weather_helper with args {'scenario': '${TEMP}/reference-case-open/baseline', 'weather': 'Zug_inducity_2009'}
City Energy Analyst version 3.15.0
Running `cea weather-helper` with the following parameters:
- general:scenario = ${TEMP}/reference-case-open/baseline
(default: {general:project}/{general:scenario-name})
- weather-helper:weather = /CityEnergyAnalyst/CityEnergyAnalyst/cea/databases/weather/Zug_inducity_2009.epw
(default: )
Set weather for scenario <baseline> to /CityEnergyAnalyst/CityEnergyAnalyst/cea/databases/weather/Zug_inducity_2009.epw
---------------------------------------
Script completed. Execution time: 1.67s
--------------------------------------------------------------------------------
================================================================================
Workflow step 7: script=schedule-maker
================================================================================
Running schedule_maker with args {'scenario': '${TEMP}/reference-case-open/baseline', 'multiprocessing': True, 'number_of_cpus_to_keep_free': 1, 'debug': False, 'buildings': ['B1000', 'B1001', 'B1002', 'B1003', 'B1004', 'B1005', 'B1006', 'B1007', 'B1008', 'B1009', 'B1010', 'B1011', 'B1012', 'B1013', 'B1014'], 'schedule_model': 'deterministic'}
City Energy Analyst version 3.15.0
Running `cea schedule-maker` with the following parameters:
- general:scenario = ${TEMP}/reference-case-open/baseline
(default: {general:project}/{general:scenario-name})
- general:multiprocessing = True
(default: True)
- general:number-of-cpus-to-keep-free = 1
(default: 1)
- general:debug = False
(default: False)
- schedule-maker:buildings = ['B1000', 'B1001', 'B1002', 'B1003', 'B1004', 'B1005', 'B1006', 'B1007', 'B1008', 'B1009', 'B1010', 'B1011', 'B1012', 'B1013', 'B1014']
(default: ['B1000', 'B1001', 'B1002', 'B1003', 'B1004', 'B1005', 'B1006', 'B1007', 'B1008', 'B1009', 'B1010', 'B1011', 'B1012', 'B1013', 'B1014'])
- schedule-maker:schedule-model = deterministic
(default: deterministic)
Running occupancy model for scenario ${TEMP}/reference-case-open/baseline
Running occupancy model with schedule model=deterministic
Using single process
Schedule for building No. 1 completed out of 15: B1000
Schedule for building No. 2 completed out of 15: B1001
Schedule for building No. 3 completed out of 15: B1002
Schedule for building No. 4 completed out of 15: B1003
Schedule for building No. 5 completed out of 15: B1004
Schedule for building No. 6 completed out of 15: B1005
Schedule for building No. 7 completed out of 15: B1006
Schedule for building No. 8 completed out of 15: B1007
Schedule for building No. 9 completed out of 15: B1008
Schedule for building No. 10 completed out of 15: B1009
Schedule for building No. 11 completed out of 15: B1010
Schedule for building No. 12 completed out of 15: B1011
Schedule for building No. 13 completed out of 15: B1012
Schedule for building No. 14 completed out of 15: B1013
Schedule for building No. 15 completed out of 15: B1014
----------------------------------------
Script completed. Execution time: 26.72s
--------------------------------------------------------------------------------
================================================================================
Workflow step 8: script=demand
================================================================================
Running demand with args {'scenario': '${TEMP}/reference-case-open/baseline', 'multiprocessing': True, 'number_of_cpus_to_keep_free': 1, 'debug': False, 'buildings': ['B1000', 'B1001', 'B1002', 'B1003', 'B1004', 'B1005', 'B1006', 'B1007', 'B1008', 'B1009', 'B1010', 'B1011', 'B1012', 'B1013', 'B1014'], 'loads_output': ['PV', 'GRID', 'GRID_a', 'GRID_l', 'GRID_v', 'GRID_ve', 'GRID_data', 'GRID_pro', 'GRID_aux', 'GRID_ww', 'GRID_hs', 'GRID_cs', 'GRID_cdata', 'GRID_cre', 'E_sys', 'Eal', 'Ea', 'El', 'Ev', 'Eve', 'Edata', 'Epro', 'Eaux', 'E_ww', 'E_hs', 'E_cs', 'E_cre', 'E_cdata', 'Qhs_sen_shu', 'Qhs_sen_ahu', 'Qhs_lat_ahu', 'Qhs_sen_aru', 'Qhs_lat_aru', 'Qhs_sen_sys', 'Qhs_lat_sys', 'Qhs_em_ls', 'Qhs_dis_ls', 'Qhs_sys_shu', 'Qhs_sys_ahu', 'Qhs_sys_aru', 'Qcs_sys_scu', 'Qcs_sys_ahu', 'Qcs_sys_aru', 'DH_hs', 'Qhs_sys', 'Qhs', 'DH_ww', 'Qww_sys', 'Qww', 'DC_cs', 'Qcs_sys', 'Qcs', 'DC_cre', 'Qcre_sys', 'Qcre', 'DC_cdata', 'Qcdata_sys', 'Qcdata', 'NG_hs', 'COAL_hs', 'OIL_hs', 'WOOD_hs', 'SOLAR_hs', 'NG_ww', 'COAL_ww', 'OIL_ww', 'WOOD_ww', 'SOLAR_ww', 'Qcs_sen_scu', 'Qcs_sen_ahu', 'Qcs_lat_ahu', 'Qcs_sen_aru', 'Qcs_lat_aru', 'Qcs_sen_sys', 'Qcs_lat_sys', 'Qcs_em_ls', 'Qcs_dis_ls', 'Qhpro_sys', 'Qcpro_sys', 'QH_sys', 'QC_sys'], 'massflows_output': ['mcpww_sys', 'mcptw', 'mcpcs_sys', 'mcphs_sys', 'mcpcs_sys_ahu', 'mcpcs_sys_aru', 'mcpcs_sys_scu', 'mcphs_sys_ahu', 'mcphs_sys_aru', 'mcphs_sys_shu', 'mcpcre_sys', 'mcpcdata_sys'], 'temperatures_output': ['T_int', 'T_ext', 'theta_o', 'Tww_sys_sup', 'Tww_sys_re', 'Tcre_sys_re', 'Tcre_sys_sup', 'Tcdata_sys_re', 'Tcdata_sys_sup', 'Ths_sys_sup_aru', 'Ths_sys_sup_ahu', 'Ths_sys_sup_shu', 'Ths_sys_re_aru', 'Ths_sys_re_ahu', 'Ths_sys_re_shu', 'Tcs_sys_sup_aru', 'Tcs_sys_sup_ahu', 'Tcs_sys_sup_scu', 'Tcs_sys_re_aru', 'Tcs_sys_re_ahu', 'Tcs_sys_re_scu', 'Ths_sys_sup', 'Ths_sys_re', 'Tcs_sys_sup', 'Tcs_sys_re'], 'resolution_output': 'hourly', 'use_dynamic_infiltration_calculation': False}
City Energy Analyst version 3.15.0
Running `cea demand` with the following parameters:
- general:scenario = ${TEMP}/reference-case-open/baseline
(default: {general:project}/{general:scenario-name})
- general:multiprocessing = True
(default: True)
- general:number-of-cpus-to-keep-free = 1
(default: 1)
- general:debug = False
(default: False)
- demand:buildings = ['B1000', 'B1001', 'B1002', 'B1003', 'B1004', 'B1005', 'B1006', 'B1007', 'B1008', 'B1009', 'B1010', 'B1011', 'B1012', 'B1013', 'B1014']
(default: ['B1000', 'B1001', 'B1002', 'B1003', 'B1004', 'B1005', 'B1006', 'B1007', 'B1008', 'B1009', 'B1010', 'B1011', 'B1012', 'B1013', 'B1014'])
- demand:loads-output = ['PV', 'GRID', 'GRID_a', 'GRID_l', 'GRID_v', 'GRID_ve', 'GRID_data', 'GRID_pro', 'GRID_aux', 'GRID_ww', 'GRID_hs', 'GRID_cs', 'GRID_cdata', 'GRID_cre', 'E_sys', 'Eal', 'Ea', 'El', 'Ev', 'Eve', 'Edata', 'Epro', 'Eaux', 'E_ww', 'E_hs', 'E_cs', 'E_cre', 'E_cdata', 'Qhs_sen_shu', 'Qhs_sen_ahu', 'Qhs_lat_ahu', 'Qhs_sen_aru', 'Qhs_lat_aru', 'Qhs_sen_sys', 'Qhs_lat_sys', 'Qhs_em_ls', 'Qhs_dis_ls', 'Qhs_sys_shu', 'Qhs_sys_ahu', 'Qhs_sys_aru', 'Qcs_sys_scu', 'Qcs_sys_ahu', 'Qcs_sys_aru', 'DH_hs', 'Qhs_sys', 'Qhs', 'DH_ww', 'Qww_sys', 'Qww', 'DC_cs', 'Qcs_sys', 'Qcs', 'DC_cre', 'Qcre_sys', 'Qcre', 'DC_cdata', 'Qcdata_sys', 'Qcdata', 'NG_hs', 'COAL_hs', 'OIL_hs', 'WOOD_hs', 'SOLAR_hs', 'NG_ww', 'COAL_ww', 'OIL_ww', 'WOOD_ww', 'SOLAR_ww', 'Qcs_sen_scu', 'Qcs_sen_ahu', 'Qcs_lat_ahu', 'Qcs_sen_aru', 'Qcs_lat_aru', 'Qcs_sen_sys', 'Qcs_lat_sys', 'Qcs_em_ls', 'Qcs_dis_ls', 'Qhpro_sys', 'Qcpro_sys', 'QH_sys', 'QC_sys']
(default: ['PV', 'GRID', 'GRID_a', 'GRID_l', 'GRID_v', 'GRID_ve', 'GRID_data', 'GRID_pro', 'GRID_aux', 'GRID_ww', 'GRID_hs', 'GRID_cs', 'GRID_cdata', 'GRID_cre', 'E_sys', 'Eal', 'Ea', 'El', 'Ev', 'Eve', 'Edata', 'Epro', 'Eaux', 'E_ww', 'E_hs', 'E_cs', 'E_cre', 'E_cdata', 'Qhs_sen_shu', 'Qhs_sen_ahu', 'Qhs_lat_ahu', 'Qhs_sen_aru', 'Qhs_lat_aru', 'Qhs_sen_sys', 'Qhs_lat_sys', 'Qhs_em_ls', 'Qhs_dis_ls', 'Qhs_sys_shu', 'Qhs_sys_ahu', 'Qhs_sys_aru', 'Qcs_sys_scu', 'Qcs_sys_ahu', 'Qcs_sys_aru', 'DH_hs', 'Qhs_sys', 'Qhs', 'DH_ww', 'Qww_sys', 'Qww', 'DC_cs', 'Qcs_sys', 'Qcs', 'DC_cre', 'Qcre_sys', 'Qcre', 'DC_cdata', 'Qcdata_sys', 'Qcdata', 'NG_hs', 'COAL_hs', 'OIL_hs', 'WOOD_hs', 'SOLAR_hs', 'NG_ww', 'COAL_ww', 'OIL_ww', 'WOOD_ww', 'SOLAR_ww', 'Qcs_sen_scu', 'Qcs_sen_ahu', 'Qcs_lat_ahu', 'Qcs_sen_aru', 'Qcs_lat_aru', 'Qcs_sen_sys', 'Qcs_lat_sys', 'Qcs_em_ls', 'Qcs_dis_ls', 'Qhpro_sys', 'Qcpro_sys', 'QH_sys', 'QC_sys'])
- demand:massflows-output = ['mcpww_sys', 'mcptw', 'mcpcs_sys', 'mcphs_sys', 'mcpcs_sys_ahu', 'mcpcs_sys_aru', 'mcpcs_sys_scu', 'mcphs_sys_ahu', 'mcphs_sys_aru', 'mcphs_sys_shu', 'mcpcre_sys', 'mcpcdata_sys']
(default: ['mcpww_sys', 'mcptw', 'mcpcs_sys', 'mcphs_sys', 'mcpcs_sys_ahu', 'mcpcs_sys_aru', 'mcpcs_sys_scu', 'mcphs_sys_ahu', 'mcphs_sys_aru', 'mcphs_sys_shu', 'mcpcre_sys', 'mcpcdata_sys'])
- demand:temperatures-output = ['T_int', 'T_ext', 'theta_o', 'Tww_sys_sup', 'Tww_sys_re', 'Tcre_sys_re', 'Tcre_sys_sup', 'Tcdata_sys_re', 'Tcdata_sys_sup', 'Ths_sys_sup_aru', 'Ths_sys_sup_ahu', 'Ths_sys_sup_shu', 'Ths_sys_re_aru', 'Ths_sys_re_ahu', 'Ths_sys_re_shu', 'Tcs_sys_sup_aru', 'Tcs_sys_sup_ahu', 'Tcs_sys_sup_scu', 'Tcs_sys_re_aru', 'Tcs_sys_re_ahu', 'Tcs_sys_re_scu', 'Ths_sys_sup', 'Ths_sys_re', 'Tcs_sys_sup', 'Tcs_sys_re']
(default: ['T_int', 'T_ext', 'theta_o', 'Tww_sys_sup', 'Tww_sys_re', 'Tcre_sys_re', 'Tcre_sys_sup', 'Tcdata_sys_re', 'Tcdata_sys_sup', 'Ths_sys_sup_aru', 'Ths_sys_sup_ahu', 'Ths_sys_sup_shu', 'Ths_sys_re_aru', 'Ths_sys_re_ahu', 'Ths_sys_re_shu', 'Tcs_sys_sup_aru', 'Tcs_sys_sup_ahu', 'Tcs_sys_sup_scu', 'Tcs_sys_re_aru', 'Tcs_sys_re_ahu', 'Tcs_sys_re_scu', 'Ths_sys_sup', 'Ths_sys_re', 'Tcs_sys_sup', 'Tcs_sys_re'])
- demand:resolution-output = hourly
(default: hourly)
- demand:use-dynamic-infiltration-calculation = False
(default: False)
Running demand calculation for scenario ${TEMP}/reference-case-open/baseline
Running demand calculation with dynamic infiltration=False
Running demand calculation with multiprocessing=True
Running demand calculation for the following buildings=['B1000', 'B1001', 'B1002', 'B1003', 'B1004', 'B1005', 'B1006', 'B1007', 'B1008', 'B1009', 'B1010', 'B1011', 'B1012', 'B1013', 'B1014']
read input files
done
Using single process
Building No. 1 completed out of 15: B1000
Building No. 2 completed out of 15: B1001
Building No. 3 completed out of 15: B1002
Building No. 4 completed out of 15: B1003
Building No. 5 completed out of 15: B1004
Building No. 6 completed out of 15: B1005
Building No. 7 completed out of 15: B1006
Building No. 8 completed out of 15: B1007
Building No. 9 completed out of 15: B1008
Building No. 10 completed out of 15: B1009
Building No. 11 completed out of 15: B1010
Building No. 12 completed out of 15: B1011
Building No. 13 completed out of 15: B1012
Building No. 14 completed out of 15: B1013
Building No. 15 completed out of 15: B1014
done - time elapsed: 241.2 seconds
-----------------------------------------
Script completed. Execution time: 242.74s
--------------------------------------------------------------------------------
================================================================================
Workflow step 9: script=emissions
================================================================================
Running emissions with args {'scenario': '${TEMP}/reference-case-open/baseline', 'year_to_calculate': 2020, 'embodied': True, 'operation': True}
City Energy Analyst version 3.15.0
Running `cea emissions` with the following parameters:
- general:scenario = ${TEMP}/reference-case-open/baseline
(default: {general:project}/{general:scenario-name})
- emissions:year-to-calculate = 2020
(default: 2020)
- emissions:embodied = True
(default: True)
- emissions:operation = True
(default: True)
Running emissions with scenario = ${TEMP}/reference-case-open/baseline
done!
---------------------------------------
Script completed. Execution time: 1.03s
--------------------------------------------------------------------------------
================================================================================
Workflow step 10: script=system-costs
================================================================================
Running system_costs with args {'scenario': '${TEMP}/reference-case-open/baseline', 'capital': True, 'operational': True}
City Energy Analyst version 3.15.0
Running `cea system-costs` with the following parameters:
- general:scenario = ${TEMP}/reference-case-open/baseline
(default: {general:project}/{general:scenario-name})
- costs:capital = True
(default: True)
- costs:operational = True
(default: True)
Running system-costs with scenario = ${TEMP}/reference-case-open/baseline
---------------------------------------
Script completed. Execution time: 0.42s
--------------------------------------------------------------------------------
================================================================================
Workflow step 11: script=water-body-potential
================================================================================
Running water_body_potential with args {'scenario': '${TEMP}/reference-case-open/baseline', 'max_water_volume_withdrawal': 1000.0, 'max_delta_temperature_withdrawal': 8.0, 'temperature_max': 6.0, 'temperature_min': 4.0}
City Energy Analyst version 3.15.0
Running `cea water-body-potential` with the following parameters:
- general:scenario = ${TEMP}/reference-case-open/baseline
(default: {general:project}/{general:scenario-name})
- water-body:max-water-volume-withdrawal = 1000.0
(default: 1000.0)
- water-body:max-delta-temperature-withdrawal = 8.0
(default: 8.0)
- water-body:temperature-max = 6.0
(default: 6.0)
- water-body:temperature-min = 4.0
(default: 4.0)
---------------------------------------
Script completed. Execution time: 0.19s
--------------------------------------------------------------------------------
================================================================================
Workflow step 12: script=sewage-potential
================================================================================
Running sewage_potential with args {'scenario': '${TEMP}/reference-case-open/baseline', 'heat_exchanger_length': 120, 'sewage_water_ratio': 0.95, 'sewage_water_district': 50.0}
City Energy Analyst version 3.15.0
Running `cea sewage-potential` with the following parameters:
- general:scenario = ${TEMP}/reference-case-open/baseline
(default: {general:project}/{general:scenario-name})
- sewage:heat-exchanger-length = 120
(default: 120)
- sewage:sewage-water-ratio = 0.95
(default: 0.95)
- sewage:sewage-water-district = 50.0
(default: 50.0)
---------------------------------------
Script completed. Execution time: 6.10s
--------------------------------------------------------------------------------
================================================================================
Workflow step 13: script=shallow-geothermal-potential
================================================================================
Running shallow_geothermal_potential with args {'scenario': '${TEMP}/reference-case-open/baseline', 'buildings_available': ['B1000', 'B1001', 'B1002', 'B1003', 'B1004', 'B1005', 'B1006', 'B1007', 'B1008', 'B1009', 'B1010', 'B1011', 'B1012', 'B1013', 'B1014'], 'extra_area_available': 0.0, 'average_probe_depth': 10.0}
City Energy Analyst version 3.15.0
Running `cea shallow-geothermal-potential` with the following parameters:
- general:scenario = ${TEMP}/reference-case-open/baseline
(default: {general:project}/{general:scenario-name})
- shallow-geothermal:buildings-available = ['B1000', 'B1001', 'B1002', 'B1003', 'B1004', 'B1005', 'B1006', 'B1007', 'B1008', 'B1009', 'B1010', 'B1011', 'B1012', 'B1013', 'B1014']
(default: ['B1000', 'B1001', 'B1002', 'B1003', 'B1004', 'B1005', 'B1006', 'B1007', 'B1008', 'B1009', 'B1010', 'B1011', 'B1012', 'B1013', 'B1014'])
- shallow-geothermal:extra-area-available = 0.0
(default: 0.0)
- shallow-geothermal:average-probe-depth = 10.0
(default: 10.0)
---------------------------------------
Script completed. Execution time: 1.99s
--------------------------------------------------------------------------------
Execution time: 548.21s
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