返回 相似
资源描述:
Executive Perspectives US Inflation Reduction Act Climate Source EPA, CBO, BCG analysis 7Copyright © 2022 by Boston Consulting Group. All rights reserved. 1 Carbon-free energy | Base, multipliers, and bonus tax credit structure intended to shape and target clean energy investments 6 60 24 10 10 10 6 base Total Energy community bonus 5x bonus of 6 base total 30 Domestic content bonus Low-income bonus Renewable investment tax credit eligible for bonuses up to 60 of upfront investment cost With a potential to increase base incentive by 10x while also supporting a just transition Prevailing wages and apprenticeship qualify projects for a 5x bonus multiplier over base for most non- manufacturing credits Significant apprenticeship opportunities to help upskill the US workforce in low-carbon technologies Investment in the energy community and low-income community qualifies renewable energy projects for up to a 10 ppt bonus credit increase each Support for the energy and low-income communities to enable economic development and jobs 3 1 4 1 3 2 Domestic content bonus provides up to a 10 ppt bonus on renewable energy production or investment tax credit Domestic content bonus to incentivize shift to US manufacturing, requiring produced in the US by 2027 and 100 of steel and iron for turbines and solar panels 2 4 Note Not all clean energy technologies are eligible for all bonuses; ppt percentage point; production tax credit eligible for similar bonuses, but domestic content, energy community, and low-income community bonuses are 10 increases not 10 ppt Source FACT SHEET Historic Bipartisan Infrastructure Deal , The White House 8Copyright © 2022 by Boston Consulting Group. All rights reserved. Carbon-free energy | Full tax credits can significantly reduce costs of generating renewable energy 1 1. New small-modular reactor; 2.Assumes 15/MWh incentive, inflation adjusted and with bonuses; Note all technologies assume base prevailing wage bonus domestic production bonus energy community bonus, and wind and solar also include low-income bonus Source Lazard, BCG analysis 40 35 77 136 100 20 13 44 112 79 Nuclear 1 Levelized Cost of Energy /MWh Solar Storage Offshore wind Onshore wind -49 -63 -42 -18 -21 Cost without tax credit Cost with tax credit Post-IRA incentive applied 60 Investment Tax Credit 35/MWh [2] Production Tax Credit 60 Investment Tax Credit 50 Investment Tax Credit 31/MWh [2] Production Tax Credit 9Carbon-free energy | Potential for step change increase in renewable energy buildout by 2030 and beyond 1 Installed Capacity GW 68 125 2 307 221 28 81 408 252 35 99 0 4-6x 2x 500x 40-50x 2030 capacity, base case conservative adoption rates 2020 capacity 2030 capacity, deep green wider adoption rates Improved economics of renewables and storage will accelerate transition from fossil fuel generation Expect upwards of 65-80 generation from renewable capacity in 2030 vs. 40 in 2020 Projects that start construction in or before 2032 eligible for tax credits; expect continued growth past 2030 Need for firm low-carbon generation to ensure grid reliability and resiliency remains Utility-scale Solar Onshore Wind Offshore Wind Non-residential Storage 10Transportation | Electric vehicle purchase price parity accelerates 5 years 1 20 2020 2015 2025 2030 -10 2035 0 10 Purchase price difference between internal combustion engine and battery electric vehicles Segment Compact SUV SUV M US Dollars 000 No-incentive 1. Purchase price parity and total cost of ownership parity differ by vehicle segment e.g., SUV vs sedan and state where vehicle is purchased some states have additional purchase incentives Source BCG powertrain model Passenger vehicles Incentive Up to 7500 for new purchases, up to 4000 for used Purchase price parity jumps forward 5 years 1 for qualifying passenger vehicles compared to internal combustion engine vehicles ICE 5-year total cost of ownership favors battery electric vehicles immediately 1 Commercial vehicles Incentive 40,000 for new purchases Includes off-highway vehicles Purchase price parity With full incentive 11Copyright © 2022 by Boston Consulting Group. All rights reserved. Transportation | Close to half of vehicle sales likely to be electric by 2030 90 38 15 47 3 2021 6 2030 base with incentives Non-electric 3 vehicles Hybrid and plug-in hybrid vehicles Battery electric and fuel cell vehicles 98 80 12 1 1 8 1. Forecast includes all light vehicles, except heavy vans; 2. Assumes decrease in scrappage rate over time EVs AVs; Including such changes in consumer mobility behavior as car and ride sharing; 3. Includes internal combustion diesel gasoline and mild hybrid electric vehicles Source BCG Powertrain Model base case incl. incentives ; BCG vehicles in operation VIO model 10 of light-, medium, and heavy- vehicles in operation expected to be electric by 2030 in US of US New Light Vehicle Sales 1 of US Light Vehicles in Operation parc 2 96 70 25 2021 2 2 5 2030 base with incentives of US New Medium- and Heavy-Duty Vehicle Sales 1 98 84 4 12 2 1 Stack-able incentives in the form of Point of sale rebate 30 rebate on EV charging / alternative fuel hardware installation Higher residual values due to used vehicle credit -level incentives such as LCFS California Several non-financial factors in the Inflation Reduction Act are also likely to drive adoption Eliminates volume cap for individual vehicle manufacturers Provides 10-year incentive certainty Simplifies incentive payout of US Medium- and Heavy-Duty Vehicles in Operation parc 2 1 12Copyright © 2022 by Boston Consulting Group. All rights reserved. Note All dates refer to when construction must start by or safe harbor achieved by 1. For minerals Up to 80 by 2027; for components up to 100 by 2029, but no 10 ppts/y increase in 2025 vs 2024 Source H.R.5376 - Inflation Reduction Act from congress.gov Today s EV batteries rely heavily on raw materials from China Sourcing requirements Inflation Reduction Act mandates two sourcing requirements to receive the clean vehicle credit, starting in 2023 40 of battery minerals sourced from US or country with free trade agreement 50 of battery components manufactured in US, Mexico, or Canada These percentages increase 10 ppts/y 1 Excluded entities Disqualifies vehicles that are imported or built with battery materials sourced from foreign countries of concern namely, China Russia 9 4 68 60 72 16 42 65 65 43 79 10 6 6 Lithium 1 1 1 Cobalt Separator Graphite 2 Nickel 3 Lithium Cobalt Class 1 Nickel Anode Cathode 2 Electrolyte Cell Share of global production, 2021 Raw materials Processing Cell 3.5B for DAC hubs Expansion of existing 45Q credit to 85/ton for permanent geological sequestration of CO2, or 60/ton for utilization of CO2 incl. enhanced oil recovery Hydrogen can receive significant incentives, with exact value depending on the associated emissions; additional 8B to build regional H2 hubs 35 60 25 85 New Value Previous value 50 15 Sequestration Utilization 35 130 50 Previous value New Value 15 50 180 Sequestration Utilization /ton CO2 /ton CO2 1. Assumes facility receives 5x bonus from meeting prevailing wage and apprenticeship requirements; Note /tCO2 /ton of carbon dioxide 0.60 0.75 1.00 3.00 2.5-4 0.45 1.5-2.5 0.45-1.5 Emissions kg CO2 emitted / kg H2 produced Production tax credit / kg H2 produced 1 Clean tech | Significant incentives to help scale clean hydrogen, CCUS, and DAC 1 14United States Levelized Cost of Hydrogen /kg hydrogen, production cost 1,2 1. Excludes infrastructure costs associated with storage and delivery to end consumer 2. Lighter shade reflects pricing uncertainty regarding natural gas lower limit 2/MMBTU, upper limit 5/MMBTU and electricity 3. Starts at 0.4/kg H2 for 60-75 greenhouse gas reduction vs fossil-derived hydrogen, goes up to 0.75/kg H2 for 75-85 greenhouse gas reduction. Source BCG North America H2 Supply Model Production tax credit Green Hydrogen Blue Hydrogen 2 Fossil-derived 2 2030 2022 3.0 0.8 0.8-1.3 3.0 0.8 0.8-1.3 Lighter shades reflects range of cost uncertainty 2 -0.4 - -0.6 0.9-1.2 0.2-0.8 0.2-0.8 3.0 0.8 0.8-1.3 2025 0-0.3 0.2-0.8 Blue hydrogen cost competitive now Green hydrogen cost competitive soon 1 Clean tech | Incentives improve cost competitiveness of clean hydrogen against traditionally produced hydrogen Two forms of clean hydrogen H2 Green Renewable energy water electrolysis Blue Fossil-derived hydrogen carbon capture 15Copyright © 2022 by Boston Consulting Group. All rights reserved. 4 0 0 7 0 1 315 111 30 12 55 44 35 2 1 1 0 2 1 0 0 0 122 93 30 17 1 6 4 1 69 23 14 1 25 16 1 Control 291 8 12 1 1 Clean tech | Higher 45Q tax credit will triple the scale of emissions addressable with CCUS 1. High CO 2 sectors include Ammonia, Chemicals ferm., Conv. Oil incl. NGP, H2, Petrochem.; Low CO 2 sectors include Aluminum, Cement Power sectors include Fossil power Generation; Others include Waste management, Wood, Pulp and Paper and Other Manufacturing | 2. Abatement costs based on emitters assigned to hubs within BCG CCUS tool, covering selected regions, using hub T Source EPA flight database 2019; BCG CCUS tool Volume of emissions within sector by cost million tons per year 123 50/ton High-Concentration Emissions 50-85/ton Industrial Emissions Highly Utilized Fossil Power Gen 85-120/ton Power Generation Emissions Totals Gulf Coast Midwest California Ohio River Northeast / Mid-Atlantic Northwest Rockies Power Other 83 million tons per year 6 316 million tons per year 23 956 million tons per year 71 45Q now 85/ton 45Q was 50/ton 16
点击查看更多>>

京ICP备10028102号-1
电信与信息服务业务许可证:京ICP证120154号

地址:北京市大兴区亦庄经济开发区经海三路
天通泰科技金融谷 C座 16层 邮编:102600