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Update residential and commercial ECMs across the Best Available, ENERGY STAR, and typical or minimum performance levels. Update market scaling fractions to match updates to Prospective ECMs using the latest RECS and CBECS data. Update electrification costs to use more recent field data sources. Remove panel and service upgrade costs from the Best Available upgrade level assuming that the high efficiency equipment alongside the included envelope upgrade is sufficient to avoid the need for panel and service upgrades when fuel switching. Introduce efficiency improvements with fuel switching in the cooking end use. Revise ENERGY STAR HPWH to break out 120V and 240V performance levels and corresponding costs for upgrading existing homes. Fix year typos in notes in Reference Case ASHP (RST) ECMs. Rename reference case ('Ref. Case') ASHP ECMs to minimum efficiency ('Min. Eff.') to be consistent with the technology performance level specified in the ECM.
Fix#274. Fix#320 by revising package_ecms.json to reflect removal of the 'Prospective Commercial Air Seal (New)' ECM with the envelope updates in v0.8.1.
"notes": "Assume historical penetration is captured in baseline",
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"source_data": null
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},
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"market_exit_year": null,
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"market_exit_year_source": null,
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"energy_efficiency": {
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"cooling": 4.13,
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"heating": 2.32,
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"cooling": 3.9,
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"heating": 2.2,
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"ventilation": 0
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},
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"energy_efficiency_units": {
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"ventilation": "relative savings (constant)"
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},
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"energy_efficiency_source": {
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"notes": "Sales-weighted combinations of heating and cooling efficiencies for typical rooftop HPs, rooftop AC + resistance (performance based on electric boiler data), and GSHPs. Rooftop HPs/AC reflect min. standard to come into effect in 2023, represented in the 2030 column; all else is based on 2020. New/replacement sales numbers drawn from AEO microdata files, available from EIA upon request.",
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"notes": "Sales-weighted combinations of heating and cooling efficiencies for typical rooftop HPs, rooftop AC + resistance (performance based on electric boiler data), and GSHPs. Rooftop HPs/AC reflect min. standard to come into effect in 2023, represented in the 2030 column; all else is based on 2020. New/replacement sales numbers drawn from AEO 2023 microdata files, available from EIA upon request.",
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"source_data": [
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{
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"title": "Updated Buildings Sector Appliance and Equipment Costs and Efficiencies",
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"author": null,
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"organization": "U.S. Energy Information Administration",
"notes": "Total installed cost for high efficiency RTHP in 2017 divided by typical output capacity (90 kBtu/h); assumes no additional costs for load shifting capabilities",
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"notes": "Total installed cost for high efficiency RTHP in 2023 divided by typical output capacity (90 kBtu/h); assumes no additional costs for load shifting capabilities",
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"source_data": {
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"title": "Updated Buildings Sector Appliance and Equipment Costs and Efficiencies",
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"author": null,
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"organization": "U.S. Energy Information Administration",
"fraction_derivation": "Heating fraction excludes electric heating and non-electric heating in floorspace where cooling is served by a chiller or district chilled water (21,649 sf out of 79,294 sf cooled), under the assumption that this service is not replaceable by the targeted heat pump; cooling fraction excludes cooling in buildings that use electric source of primary heating (25,613 sf/ 79,294 sf)."
"fraction_derivation": "Ventilation fraction is portion of ventilation in commercial buildings that use non-electric heating (53,873 sf/80,078 sf) AND which do not use a chiller for cooling (57,645 sf / 79,294 sf)."
"fraction_derivation": "Heating fraction excludes portion of heating consumption in building where cooling is served by a chiller or district chilled water (703 TBtus space heating w/ chiller/district cooling out of 2167 TBtus space heating across all buildings), under the assumption that this service is not replacable by the targeted heat pump; cooling fraction excludes cooling in buildings that use electric source of primary heating (221 TBtus cooling in buildings with electric primary heating / 589 TBtus cooling in all buildings); ventilation fraction is portion of ventilation in buildings where cooling is not served by chiller 1-(230/728) and heating is non-electric (516/728))."
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},
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"_description": "Switch to typical size light commercial rooftop HP unit that meets the best available performance level in 2017, adjust heating/cooling set point down/up to shed peak period electricity use, pair with passive thermal energy storage and envelope/HVAC equipment efficiency generally corresponding to AEDG 50% guideline across building types, cold-climate",
"notes": "Assume historical penetration is captured in baseline",
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"source_data": null
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},
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"market_exit_year": null,
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"market_exit_year_source": null,
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"energy_efficiency": {
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"cooling": 4.13,
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"heating": 2.32,
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"cooling": 3.9,
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"heating": 2.2,
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"ventilation": 0
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},
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"energy_efficiency_units": {
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"ventilation": "relative savings (constant)"
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},
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"energy_efficiency_source": {
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"notes": "Sales-weighted combinations of heating and cooling efficiencies for typical rooftop HPs, rooftop AC + resistance (performance based on electric boiler data), and GSHPs. Rooftop HPs/AC reflect min. standard to come into effect in 2023, represented in the 2030 column; all else is based on 2020. New/replacement sales numbers drawn from AEO 2021 microdata files, available from EIA upon request.",
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"notes": "Sales-weighted combinations of heating and cooling efficiencies for typical rooftop HPs, rooftop AC + resistance (performance based on electric boiler data), and GSHPs. Rooftop HPs/AC reflect min. standard to come into effect in 2023, represented in the 2030 column; all else is based on 2020. New/replacement sales numbers drawn from AEO 2023 microdata files, available from EIA upon request. This captures impact of switching from fossil to typical electric, savings shape captures impact of going from typical to best electric equipment",
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"source_data": [
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{
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"title": "Updated Buildings Sector Appliance and Equipment Costs and Efficiencies",
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"author": null,
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"organization": "U.S. Energy Information Administration",
"notes": "Total installed cost for high efficiency RTHP in 2017 divided by typical output capacity (90 kBtu/h); assumes no additional costs for load shifting capabilities",
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"notes": "Total installed cost for high efficiency RTHP in 2023 divided by typical output capacity (90 kBtu/h); assumes no additional costs for load shifting capabilities",
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"source_data": {
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"title": "Updated Buildings Sector Appliance and Equipment Costs and Efficiencies",
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"author": null,
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"organization": "U.S. Energy Information Administration",
"fraction_derivation": "Heating fraction excludes electric heating and non-electric heating in floorspace where cooling is served by a chiller or district chilled water (21,649 sf out of 79,294 sf cooled), under the assumption that this service is not replaceable by the targeted heat pump; cooling fraction excludes cooling in buildings that use electric source of primary heating (25,613 sf/ 79,294 sf)."
"fraction_derivation": "Ventilation fraction is portion of ventilation in commercial buildings that use non-electric heating (53,873 sf/80,078 sf) AND which do not use a chiller for cooling (57,645 sf / 79,294 sf)."
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}],
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"_description": "Switch to typical size light commercial rooftop HP unit that meets the best available performance level in 2017, adjust heating/cooling set point down/up to shed peak period electricity use, pair with passive thermal energy storage and envelope/HVAC equipment efficiency generally corresponding to AEDG 50% guideline across building types, non-cold-climate",
"fraction_derivation": "Heating fraction excludes portion of heating consumption in building where cooling is served by a chiller or district chilled water (703 TBtus space heating w/ chiller/district cooling out of 2167 TBtus space heating across all buildings), under the assumption that this service is not replacable by the targeted heat pump; cooling fraction excludes cooling in buildings that use electric source of primary heating (221 TBtus cooling in buildings with electric primary heating / 589 TBtus cooling in all buildings); ventilation fraction is portion of ventilation in buildings where cooling is not served by chiller 1 - (230 TBtus / 728 TBtus) and heating is non-electric (516 TBtus / 728 TBtus))."
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},
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"_description": "Switch to typical size light commercial rooftop HP unit that meets the best available performance level in 2023, adjust heating/cooling set point down/up to shed peak period electricity use, pair with passive thermal energy storage and envelope/HVAC equipment efficiency generally corresponding to AEDG 50% guideline across building types, non-cold-climate",
Copy file name to clipboardExpand all lines: ecm_definitions/Best Com. ASHP, Env., PC (EE+DF-LFL) CC.json
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{
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"name": "Best Com. ASHP, Env., PC (EE+DF–LFL) CC",
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"name": "Best Com. ASHP, Env., PC (EE+DF-LFL) CC",
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"_description": "Typical size light commercial rooftop HP unit that meets the best available performance level in 2017, adjust heating/cooling set point down/up to shed peak period electricity use, pair with passive thermal energy storage and envelope/HVAC equipment efficiency generally corresponding to AEDG 50% guideline across building types, cold-climate, like-for-like",
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"tsv_features": {
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"shape": {
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"end_use": ["cooling", "heating", "ventilation"],
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"fuel_type": "electricity",
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"technology": ["rooftop_ASHP-cool", "rooftop_ASHP-heat", "all ventilation"],
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"market_entry_year": 2021,
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"market_entry_year": 2023,
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"market_entry_year_source": {
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"notes": "Assume historical penetration is captured in the baseline",
"energy_efficiency_source": "Determined by custom savings shape information in 'tsv_features'",
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"installed_cost": 178.33,
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"installed_cost": 210,
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"cost_units": "2017$/kBtu/h cooling",
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"installed_cost_source": {
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"notes": "Total installed cost for high efficiency RTHP in 2017 divided by typical output capacity (90 kBtu/h); assumes no additional costs for load shifting capabilities",
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"notes": "Total installed cost for high efficiency RTHP in 2023 divided by typical output capacity (90 kBtu/h); assumes no additional costs for load shifting capabilities",
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"source_data": {
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"title": "Updated Buildings Sector Appliance and Equipment Costs and Efficiencies",
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"author": null,
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"organization": "U.S. Energy Information Administration",
"fraction_derivation": "Ventilation fraction is portion of ventilation in commercial buildings that use RTHP electricity for heating (7,215 sf/80,078 sf)."
"fraction_derivation": "Ventilation fraction is portion of ventilation in commercial buildings that use HP for heating (102 TBtus / 728 TBtus)."
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},
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"market_scaling_fractions_source": null,
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"_notes": "Measure Definition and Status Google spreadsheet contains calculations for combining RTU and commercial envelope measures and converting units",
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"organization": "Lawrence Berkeley National Laboratory",
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