{"uuid":"0f92fe57-3365-428a-8fe8-0afc326b3b43","name":"Cambium 2023","layouts":[{"name":"Default","schema":{"inputs":{"scenario":"Mid-case","technology":"ALL","technology_type":"Technologies","location":"ALL","location_type":"GEA Regions 2023","year":"2025","metric":"LRMER: CO2e Combustion+Precombustion [kg/MWh]","scenario_diff":null},"components":{"map-1708575008043":{"id":"map-1708575008043","inputs":{"scenario":"Mid-case","technology":"ALL","technology_type":"Technologies","location":"ALL","location_type":"GEA Regions 2023","year":"2025","metric":"LRMER: CO2e Combustion+Precombustion [kg/MWh]","scenario_diff":null},"x":0,"y":0,"w":6,"h":5,"options":{}},"interval_timeseries-1708575025086":{"id":"interval_timeseries-1708575025086","inputs":{"scenario":"Mid-case","technology":"ALL","technology_type":"Technologies","location":"ALL","location_type":"GEA Regions 2023","year":"2025","metric":"Generation [MWh]","scenario_diff":null},"x":0,"y":5,"w":6,"h":5,"options":{}},"annual_timeseries-1708575359007":{"id":"annual_timeseries-1708575359007","inputs":{"scenario":"Mid-case","technology":"ALL","technology_type":"Technologies","location":"ALL","location_type":"GEA Regions 2023","year":"2025","metric":"Generation [MWh]","scenario_diff":null},"x":6,"y":0,"w":6,"h":5,"options":{}}},"unlocked":"map-1708575008043"},"project":"0f92fe57-3365-428a-8fe8-0afc326b3b43"}],"timeseries_enabled":true,"published":true,"meta":{"scenarios":[["High demand growth",null,"A scenario with the same assumptions as the Mid-case, except for greater demand growth representing high electrification.",null,5],["High natural gas prices",null,"A scenario with the same assumptions as the Mid-case, except for higher natural gas prices.",null,7],["High renewable energy cost",null,"A scenario with the same assumptions as the Mid-case, except for higher renewable energy and battery costs.",null,2],["Low natural gas prices",null,"A scenario with the same assumptions as the Mid-case, except for lower natural gas prices.",null,6],["Low renewable energy cost",null,"A scenario with the same assumptions as the Mid-case, except for lower renewable energy and battery costs.",null,1],["Mid-case",null,"A business-as-usual scenario.",null,0],["Mid-case with 100% decarbonization by 2035",null,"A scenario with the same assumptions as the Mid-case, except for a constraint that enforces 100% decarbonization by 2035, and nasacent technologies are included.",null,4],["Mid-case with 95% decarbonization by 2050",null,"A scenario with the same assumptions as the Mid-case, except for a constraint that enforces 95% decarbonization by 2050, and nasacent technologies are included.",null,3]],"years":[["2025",null,null,null,0],["2030",null,null,null,0],["2035",null,null,null,0],["2040",null,null,null,0],["2045",null,null,null,0],["2050",null,null,null,0]],"technologies":{"Technologies":[["Battery","#FF4A88","Electricity battery storage",null,21],["Biopower","#5B9844","Biopower and landfill-gas",null,12],["Biopower CCS","#99F56B","Biopower with carbon capture and storage",null,13],["Canadian Imports","#193A71","Electricity imported from Canada",null,10],["Coal","#222222","Coal (pulverized, integrated gasification combined cycle, and cofired)",null,3],["Coal CCS","#707685","Coal with carbon capture and storage",null,4],["Concentrating Solar Power","#FC761A","Concentrating Solar Power with and without thermal energy storage",null,19],["Geothermal","#A96235","Geothermal",null,11],["Hydrogen CT","#A8C839","Hydrogen combustion turbine",null,14],["Hydropower","#187F94","Hydropower",null,9],["Land-based Wind","#00B6EF","Land-based Wind",null,15],["Natural Gas CC","#52216B","Natural gas combined cycle",null,5],["Natural Gas CC CCS","#855B9E","Natural gas combined cycle with carbon capture and storage",null,6],["Natural Gas CT","#C2A1DB","Natural gas combustion turbine",null,7],["Nuclear","#820000","Nuclear",null,1],["Offshore Wind","#106BA7","Offshore Wind",null,16],["Oil-gas-steam","#853D65","Oil-gas-steam",null,8],["Pumped Hydro Storage","#CC0079","Pumped Hydro Storage",null,20],["Rooftop PV","#FEE603","Customer-sited rooftop photovoltaics",null,18],["Utility-scale PV","#FFC903","Utility-scale and distributed-utility-scale photovoltaics",null,17]]},"locations":{"GEA Regions 2023":[["CAISO",null,null,null,0],["ERCOT",null,null,null,0],["FRCC",null,null,null,0],["ISONE",null,null,null,0],["MISO Central",null,null,null,0],["MISO North",null,null,null,0],["MISO South",null,null,null,0],["NYISO",null,null,null,0],["Northern Grid East",null,null,null,0],["Northern Grid South",null,null,null,0],["Northern Grid West",null,null,null,0],["PJM East",null,null,null,0],["PJM West",null,null,null,0],["SERTP",null,null,null,0],["SPP North",null,null,null,0],["SPP South",null,null,null,0],["West Connect North",null,null,null,0],["West Connect South",null,null,null,0]],"Nations":[["Contiguous United States",null,null,null,0]]},"metrics":[["AER Gen: CO2 Combustion [kg/MWh]",null,"Average emission rate for in-region generation - CO2 from direct combustion [kg/MWh]","<i class=\"fas fa-smog\"></i>",3],["AER Gen: CO2e Combustion+Precombustion [kg/MWh]",null,"Average emission rate for in-region generation - CO2 equiv. from both combustion and precombustion (CO2, CH4, N2O with 100 year GWP) [kg/MWh]","<i class=\"fas fa-smog\"></i>",4],["AER Load: CO2 Combustion [kg/MWh]",null,"Average emission rate for in-region load - CO2 from direct combustion [kg/MWh]","<i class=\"fas fa-smog\"></i>",5],["AER Load: CO2e Combustion+Precombustion [kg/MWh]",null,"Average emission rate for in-region load - CO2 equiv. from both combustion and precombustion (CO2, CH4, N2O with 100 year GWP) [kg/MWh]","<i class=\"fas fa-smog\"></i>",6],["CO2 Captured CCS [metric tons]",null,"Total CO2 captured from generators with carbon capture technologies [metric tons]","<i class=\"fas fa-smog\"></i>",26],["CO2 Shadow Price [$/ton]",null,"Shadow price on national CO2 constraint (if present) [$/ton]","<i class=\"fas fa-dollar-sign\"></i>",25],["Capacity Shadow Price [$/MW-firm]",null,"Shadow price from the planning reserve constraint [$/MW-firm]","<i class=\"fas fa-dollar-sign\"></i>",24],["Capacity [MW]",null,"Nameplate capacity [MW]","<i class=\"fas fa-cubes\"></i>",2],["Clean Energy Fraction: Generation",null,"Clean energy fraction for in-region generation","<i class=\"fas fa-percent\"></i>",15],["Clean Energy Fraction: Load",null,"Clean energy fraction of electricity consumed by this region","<i class=\"fas fa-percent\"></i>",16],["Cost: End Use Capacity [$/MWh]",null,"Marginal cost of the additional firm capacity necessary to maintain resource adequacy when end use load is increased [$/MWh]","<i class=\"fas fa-dollar-sign\"></i>",17],["Cost: End Use Energy [$/MWh]",null,"Marginal cost of the additional energy to serve an increase in end use load [$/MWh]","<i class=\"fas fa-dollar-sign\"></i>",18],["Cost: End Use Portfolio [$/MWh]",null,"Marginal cost of meeting RPS and CES portfolio requirements when end use load is increased [$/MWh]","<i class=\"fas fa-dollar-sign\"></i>",19],["Cost: End Use Total [$/MWh]",null,"Total marginal cost induced by an increase in end use load (energy, capacity, operating reserve, and portfolio costs) [$/MWh]","<i class=\"fas fa-dollar-sign\"></i>",20],["Curtailment [MWh]",null,"Curtailment of wind, solar, geothermal, hydropower, and nuclear generation [MWh]","<i class=\"fas fa-bolt\"></i>",23],["Energy Storage Capacity [MWh]",null,"Energy storage capacity [MWh]","<i class=\"fas fa-cubes\"></i>",27],["Generation [MWh]",null,"Generation from all technologies [MWh]","<i class=\"fas fa-bolt\"></i>",1],["LRMER: CO2 Combustion [kg/MWh]",null,"Long-run marginal emission rate - CO2 from direct combustion [kg/MWh]","<i class=\"fas fa-smog\"></i>",7],["LRMER: CO2e Combustion+Precombustion [kg/MWh]",null,"Long-run marginal emission rate - CO2 equiv. from both combustion and precombustion (CO2, CH4, N2O with 100 year GWP) [kg/MWh]","<i class=\"fas fa-smog\"></i>",8],["Load: Busbar [MWh]",null,"Busbar load [MWh]","<i class=\"fas fa-building\"></i>",21],["Load: Net [MWh]",null,"Load less variable generation [MWh]","<i class=\"fas fa-building\"></i>",22],["SRMER: CO2 Combustion [kg/MWh]",null,"Short-run marginal emission rate - CO2 from direct combustion [kg/MWh]","<i class=\"fas fa-smog\"></i>",9],["SRMER: CO2e Combustion+Precombustion [kg/MWh]",null,"Short-run marginal emission rate - CO2 equiv. from both combustion and precombustion (CO2, CH4, N2O with 100 year GWP) [kg/MWh]","<i class=\"fas fa-smog\"></i>",10],["Total Emissions: CO2 Combustion [metric tons]",null,"Total CO2 emissions from direct combustion [metric tons]","<i class=\"fas fa-smog\"></i>",11],["Total Emissions: CO2e Combustion [metric tons]",null,"Total CO2 equiv emissions from direct combustion (CO2, CH4, N2O with 100 year GWP) [metric tons]","<i class=\"fas fa-smog\"></i>",12],["Total Emissions: CO2e Combustion+Precombustion [metric tons]",null,"Total CO2 equiv emissions from both combustion and precombustion (CO2, CH4, N2O with 100 year GWP) [metric tons]","<i class=\"fas fa-smog\"></i>",14],["Total Emissions: CO2e Precombustion [metric tons]",null,"Total CO2 equiv emissions from precombustion processes (CO2, CH4, N2O with 100 year GWP) [metric tons]","<i class=\"fas fa-smog\"></i>",13]]},"metric_exclusions":{}}