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Electric and Plug-in Hybrid Vehicle Roadmap
EV/PHEV roadmap milestones 2010 2020 2030 2040 Vehicle sales 7 million Global market share 9% Vehicle sales 30 million Global market share 30% 2050 Vehicle sales 70 million Global market share 48% Vehicle sales 100 million Global market share 60% Policy framework Adequate incentives for EV/PHEV purchase and production in line with targets; co-ordination of recharging infrastructure development in key areas EVs should become commercially viable without significant subsidies; support should continue for widespread expansion of recharching infrastructure Fast recharging options have achieved lower cost, with batteries well suited; support for widespread implementation of fast recharging as needed to ensure widespread availability Availability of higher power/energy-dense batteries should position policy makers to encourage remaining segments of light-duty vehicle markets to “go electric”, including greater use in larger, longer-distance vehicles Vehicles become fully commercial, batteries reach all target specifications for cost and durability, including additional cycling tolerance in line with advanced batteries; full recycling systems in place Batteries continue to improve; introduce a new generation of batteries that significantly outperform lithium-ion at a similar cost EVs achieve superiority to internal combustion engines in most respects, close the gap in driving range Common systems for vehicle-to-grid electricity sales, fast recharge and/or battery swapping well established Refine codes and standards as needed; modify to accommodate innovations in batteries, smart grid systems, etc., but minimise the need for reinvestments in existing systems Expansion of recharging infrastructure to more areas; greater use of fast recharging; fully established vehicle-to-grid electricity systems Completion of most recharging infrastructure in OECD and other major economies; expand globally as countries establish reliable, lowcarbon electricity generation systems Ongoing recharging infrastructure and generation system expansion and refinement as needed; with ongoing increase in systems and capacity to handle fast charging Continue RD&D on advanced battery designs moving towards demonstration and deployment as concepts mature; incorporate lessons learned from earlier experiences Achieve widespread introduction of next generation of battery, full deployment of smart-grid systems and related technologies Ongoing RD&D as needed; focus on improving battery performance to maximise vehicle driving range Vehicles/batteries Low- and medium-volume production, with design optimisations to 2015, then rapidly increase numbers of models offered and average production volumes; battery and other costs decline to target levels Codes/standards Ensure plugs and charging systems are compatible across major regions, including basic “smart metering” systems for home and public recharging stations; develop protocols for fast recharging Recharging/electricity infrastructure Establish home recharging and begin major investments in street/office daytime commercial recharging, including rapid charging where appropriate RD&D Ensure vehicle/battery systems are reliable and safe; achieve near-term technical and cost targets, such as USD 300/kWh battery cost; develop advanced battery concepts and prototypes International Energy Agency www.iea.org/roadmaps ■ H2 hybrid fuel cell ■ Conventional diesel ■ CNG/LPG ■ Hybrid (gasoline) ELECTRIC AND PLUG-IN■ Electric HYBRID VEHICLE roadmap ■ Plug-in hybrid gasoline ■ Plug-in hybrid diesel sales, ■ Conventional gasoline Annual light-duty vehicle ■ Diesel hybrid 2000-2050 BLUE Map scenario, Passenger LDV Sales (million) 180 160 140 Diesel hybrid 120 100 CNG/LPG H2 hybrid fuel cell l diese Conventional 80 60 rid ( Conventional gasoline 20 ybr Plug Hyb 40 Electric Plug -in h gaso -in h line) id d ybri iese d ga l solin e 0 2000 2005 2010 2015 2020 2025 2030 2035 2040 2045 2050 Key findings uu In addition to contributing significant greenhouse-gas emissions reductions, the roadmap’s level of EV/PHEV sales will deliver substantial benefits in terms of improved oil security, reduced urban area pollution and noise. uu Policy support is critical, especially in two areas: ensuring vehicles become cost-competitive and providing adequate recharging infrastructure. uu The consumer comes first: wider use of EVs/PHEVs will require an improved understanding of consumer needs and desires, as well as consumer willingness to change vehicle purchase and travel behaviour. uu Performance measurement will be needed: the IEA roadmap contains a set of proposed metrics and targets for key attributes like driving range and battery requirements to ensure that EVs/PHEVs achieve their potential. uu RD&D priorities: research, development and demonstration must continue to reduce battery costs and ensure adequate materials supply. More research is also needed on smart grids and the vehicle-grid interface. uu International collaboration can accelerate deployment: industry and governments need to work together on research programmes, codes and standards, and alignment of vehicle and infrastructure roll-out. © OECD/IEA, 2010 uu Roadmap vision: industry and governments should attain a combined EV/PHEV sales share of at least 50% of LDV sales worldwide by 2050. 10 000 10 000 8 000 8 000 0 2 000 140 2015 2030 0 2050 Total sales (thousands) 6 400 4 700 4 000 260 150 2 000 3 100 2 100 4 000 6 000 2 000 3 800 6 000 EV sales Total sales (thousands) 5 900 Total sales (thousands) 8 000 6 000 4 000 2 000 170 Urgent action needed in the next 10 years to achieve 2050 targets 8 800 10 000 2015 2030 0 2050 2 PHEV sales 52 200 49 100 49 100 52 200 Total sales (thousands) 19 900 1 900 16 500 600 50 30 24 600 1 300 2 400 1 900 700 24 600 70 140 3 900 1 600 2030 2030 2050 2050 9 300 9 300 16 500 EV/PHEV sales must reach substantial levels by 2015, and rise rapidly thereafter in order to achieve 2050 CO2 reduction targets. Sales are expected to spread to nonOECD regions over time. 19 900 2015 Total EV + PHEV global vehicle sales Total EV + PHEV global vehicle sales Total sales (thousands) Total sales (thousands) 3 100 10 2015 40 6 400 4 700 24 600 2 000 3 900 10 000 All other8 000 O 2015 2050 600 6 000 9 300 8 800 0 4 000 2 000 2 000 0 3 800 900 500 2 000 6 000 4 000 6.0 2015 1 600 2030 4 000 8 000 6 000 2030 2050 2015 2030 n 0 tio ibu EV contr 2015 2030 2050 2050 3 800 0 6 000 40 2050 2015 Total sales (thousands) 10 000 10 000 8 000 Total sales (thousands) 8 600 8 000 2030 0 2 100 Other (conventio nal efficiency, fuel cell vehicles, mix shift) 2 000 3 150 2 0 1 2015 2030 2050 0.8 0 2030 Conventional diesel Conventional gasoline 2005 2015 2030 2050 OECD Europe 1 000 OECD Pacific 800 Former Soviet Union 600 Eastern Europe China 400 Other Asia 200 India CNG/LPG fuels Biofuels 0 OECD North America Middle East 0 Latin America 2005 2030 2050 China Baseline 2030 2050 BLUE Africa World 10 000 8 000 www.iea.org/roadmaps © OECD/IEA, 2010 Electricity 1 200 11 400 Hydrogen GTL and CTL 500 2050 9 400 1 000 2045 6 200 1 500 BLUE Map 2 000 Baseline BLUE Map 2 500 2040 Less carbon-intensive electricity is needed to realise EV/PHEV emissions reductions Baseline Final energy consumption in the transportation sector, by fuel type 2035 nds) For light-duty vehicles, electric and plug-in hybrid vehicles account for 2.6 Gt of CO2equivalent emissions reductions by 2050, about half of total reductions for light-duty vehicles. 2025 Baseline BLUE Map The GHG reductions and EV/PHEV penetrations displayed here are based on the IEA ETP BLUE Map scenario, which targets an aggressive 50% reduction in CO2 worldwide by 2050 relative to 2005 levels. For transport, a 30% GHG reduction is targeted, which will require rapid market penetration of electric vehicles and plug-in hybrid vehicles. 2020 Carbon intensity of electricity (gCO2/kWh) 2015 Billion litres gasoline-equivalent 2010 9 600 49 100 2 400 1 900 1 300 8 600 70 Total sales (thousands) 19 900 16 500 9 600 8 600 170 140 1 900 1 600 40 700 9 400 6 200 2 200 150 16 500 600 50 3 900 10 140 3 100 1 300 2 400 1 900 700 100 1 300 19 900 Total EV + PHEV global vehicle sales 4 000 50 100 0 PHEV contribution (from electricity) PHEV contribution4(fr 000 om liquid fuel efficiency) 3.1 0 2050 260 4 2 000 10 000 6 000 2 000 5 4 000 2 000 4 000 2050 6 000 5800900 10 2050 4 000 OECD North America 8 000 4 000 150 2030 6 000 0 2 000 2015 6 000 2 000 2030 8 000 500 2 000 2050 10 000 6 000 2015 10 000 Total sales (thousands) 4 000 8 000 India 2030 8 000 4 000 8 000 1 900 6 000 2030 10 000 10 000 2050 6 000 10 000 2050 PHEV sales 2030 All other OECD Pacific 800 2015 2030 0 EV sales 500 0 Total 11 sales 400 (thousands) 6 400 4 700 2 000 140 Total sales (thousands) Total sales (thousands) Total sales (thousands) 30 2015 4 000 8 000 0 140 Total 70 sales (thousands) 1 900 700 140 70 8 800 5 900 600 50 2 100 0 2050 10 000 6 2 400 Total sales (thousands) 3 100 Total sales (thousands) 11 400 260 9 600 2 200 7 2 000 China 2030 CO2 emission reduction, BLUE Map scenario, 2010-2050 Global emissions (Gt CO2) 1 900 3 8 900 600 1 600 2015 4 000 6 000 2 000 2015 8 000 2050 2050 30 0 2050 2050 10 000 All other 2015 2030 Total sales (thousands) 2030 2030 2050 2015 Total sales (thousands) Total sales (thousands) 2015 30 150 100 2 000 0 30 40 2015 2030 0 6 000 1 600 4 000 0 9 400 10 11 400 40 2 000 2050 150 100 Total sales (thousands) Total sales (thousands) 2 200 2030 2050 0 2015 0 9 400 16 500 Total sales (thousands) Total sales (thousands) 9 400 11 400 6 200 9 600 8 600 11 400 9 400 2015 2030 2 000 8 000 2030 4 000 2 8000 000 2050 6 200 4 000 2 000 6 000 10 000 India 2 000 2 000 6 000 2 000 All other 2050 2015 410000 000 2 200 2050 4 000 2030 6 000 All other 2030 0 8 000 8 000 4 000 2050 2050 10 000 10 000 2015 1 900 2030 0 2015 0 4 000 8 000 2015 Total sales (thousands) 2015 2 000 2 000 6 000 6 000 0 6 000 10 000 10 0 India 600 2020 0 50 2 000 000 8 2000 4 000 India 4 000 2 000 6 000 OECD Europe 2030 6 000 0 2050 2 000 2030 2015 2015 6 000 000 10 4000 8 000 4 000 600 100 6 200 1 900 150 2 200 4 000 8 000 50 4 000 6 000 6 000 India All other 10 000 Total sales (thousands) Vehicle sales must grow rapidly 2015 8 000 2 200 2012 8 000 Total sales (thousands) Total sales (thousands) 2010 10 000 6 000 10 000 150 0 10 000 China 6 000 100 10 6 200 8 000 20 China Total sales (thousands) 10 000 India 30 PHEV models 9 400 China Total sales (thousands) Number of models 30 11 400 8 000 170 3 800 6 400 3 100 8 000 10 000 Number of models offered through 2020 EV models 0 4 000 2 000 2050 10 000 8 000 2030 2015 4 000 OECD North America 0 2030 China 40 0 6 000 2 000 Total sales (thousands) 2015 Total sales (thousands) 5 900 2 100 4 700 260 400 22 000 1 300 1 900 6 400 PHEV sales 10 000 6 000 2050 150 8 600 0 2050 2030 2050 EV sales 8 000 8 000 China OECD Pacific 19 900 2 000 2030 2015 2030 4 000 10 000 2 8 000 000 2050 10 000 170 140 0 2015 0 2050 4 000 700 4140 700 2 000 2 000 6 000 6 000 OECD Pacific 6 200 2015 150 Total sales (thousands) 4 000 140 150 0 Total sales (thousands) 8 800 2015 2050 2030 2030 2030 9 600 2 000 3 800 Total sales (thousands) 5 900 6 400 2 1003 100 8 800 4 700 0 2015 2 000 2015 6 000 0 70 0 4 000 6 000 10 000 4 000 8 000 260 2 000 150 5 900 2 000 2 000 6 000 2 000 8 000 170 2050 4 000 4 000 10 000 OECD Europe Total sales (thousands) 2030 4 000 8 000 6 000 3 800 0 Battery costs for PHEVs and EVs must drop 2015 rapidly toward USD 300/kWh in order to bring vehicle costs to competitive levels. 10 000 8 000 2 100 3 800 2 100 2020 2 000 150 2015 4 000 6 000 10 000 260 0 2010 Total sales (thousands) 6 000 Target cost 170 200 OECD North America 6 000 OECD Europe OECD Pacific 8 000 8 000 140 8 000 10 000 PHEV sales Total sales (thousands)Total sales (thousands) 400 EV 000 sales 10 8 800 10 000 5 900 600 8 000 8 000 OECD North America OECD Europe OECD North America Total sales (thousands) Cost (USD/kWh) 800 10 000 3 800 Electric and plug-in hybridPHEV sales vehicle indicative sales targets in BLUE Map scenario PHEV sales Expected cost 260 1 000 8 800 EV sales EV sales OECD Pacific 10 000 9 600 Global map of regional EV/PHEV sales 10 000 52 200 OECD Europe OECD North America Battery costs through 2020 10 000 10 000 8 000 8 000 0 2 000 140 2015 2030 0 2050 Total sales (thousands) 6 400 4 700 4 000 260 150 2 000 3 100 2 100 4 000 6 000 2 000 3 800 6 000 EV sales Total sales (thousands) 5 900 Total sales (thousands) 8 000 6 000 4 000 2 000 170 Urgent action needed in the next 10 years to achieve 2050 targets 8 800 10 000 2015 2030 0 2050 2 PHEV sales 52 200 49 100 49 100 52 200 Total sales (thousands) 19 900 1 900 16 500 600 50 30 24 600 1 300 2 400 1 900 700 24 600 70 140 3 900 1 600 2030 2030 2050 2050 9 300 9 300 16 500 EV/PHEV sales must reach substantial levels by 2015, and rise rapidly thereafter in order to achieve 2050 CO2 reduction targets. Sales are expected to spread to nonOECD regions over time. 19 900 2015 Total EV + PHEV global vehicle sales Total EV + PHEV global vehicle sales Total sales (thousands) Total sales (thousands) 3 100 10 2015 40 6 400 4 700 24 600 2 000 3 900 10 000 All other8 000 O 2015 2050 600 6 000 9 300 8 800 0 4 000 2 000 2 000 0 3 800 900 500 2 000 6 000 4 000 6.0 2015 1 600 2030 4 000 8 000 6 000 2030 2050 2015 2030 n 0 tio ibu EV contr 2015 2030 2050 2050 3 800 0 6 000 40 2050 2015 Total sales (thousands) 10 000 10 000 8 000 Total sales (thousands) 8 600 8 000 2030 0 2 100 Other (conventio nal efficiency, fuel cell vehicles, mix shift) 2 000 3 150 2 0 1 2015 2030 2050 0.8 0 2030 Conventional diesel Conventional gasoline 2005 2015 2030 2050 OECD Europe 1 000 OECD Pacific 800 Former Soviet Union 600 Eastern Europe China 400 Other Asia 200 India CNG/LPG fuels Biofuels 0 OECD North America Middle East 0 Latin America 2005 2030 2050 China Baseline 2030 2050 BLUE Africa World 10 000 8 000 www.iea.org/roadmaps © OECD/IEA, 2010 Electricity 1 200 11 400 Hydrogen GTL and CTL 500 2050 9 400 1 000 2045 6 200 1 500 BLUE Map 2 000 Baseline BLUE Map 2 500 2040 Less carbon-intensive electricity is needed to realise EV/PHEV emissions reductions Baseline Final energy consumption in the transportation sector, by fuel type 2035 nds) For light-duty vehicles, electric and plug-in hybrid vehicles account for 2.6 Gt of CO2equivalent emissions reductions by 2050, about half of total reductions for light-duty vehicles. 2025 Baseline BLUE Map The GHG reductions and EV/PHEV penetrations displayed here are based on the IEA ETP BLUE Map scenario, which targets an aggressive 50% reduction in CO2 worldwide by 2050 relative to 2005 levels. For transport, a 30% GHG reduction is targeted, which will require rapid market penetration of electric vehicles and plug-in hybrid vehicles. 2020 Carbon intensity of electricity (gCO2/kWh) 2015 Billion litres gasoline-equivalent 2010 9 600 49 100 2 400 1 900 1 300 8 600 70 Total sales (thousands) 19 900 16 500 9 600 8 600 170 140 1 900 1 600 40 700 9 400 6 200 2 200 150 16 500 600 50 3 900 10 140 3 100 1 300 2 400 1 900 700 100 1 300 19 900 Total EV + PHEV global vehicle sales 4 000 50 100 0 PHEV contribution (from electricity) PHEV contribution4(fr 000 om liquid fuel efficiency) 3.1 0 2050 260 4 2 000 10 000 6 000 2 000 5 4 000 2 000 4 000 2050 6 000 5800900 10 2050 4 000 OECD North America 8 000 4 000 150 2030 6 000 0 2 000 2015 6 000 2 000 2030 8 000 500 2 000 2050 10 000 6 000 2015 10 000 Total sales (thousands) 4 000 8 000 India 2030 8 000 4 000 8 000 1 900 6 000 2030 10 000 10 000 2050 6 000 10 000 2050 PHEV sales 2030 All other OECD Pacific 800 2015 2030 0 EV sales 500 0 Total 11 sales 400 (thousands) 6 400 4 700 2 000 140 Total sales (thousands) Total sales (thousands) Total sales (thousands) 30 2015 4 000 8 000 0 140 Total 70 sales (thousands) 1 900 700 140 70 8 800 5 900 600 50 2 100 0 2050 10 000 6 2 400 Total sales (thousands) 3 100 Total sales (thousands) 11 400 260 9 600 2 200 7 2 000 China 2030 CO2 emission reduction, BLUE Map scenario, 2010-2050 Global emissions (Gt CO2) 1 900 3 8 900 600 1 600 2015 4 000 6 000 2 000 2015 8 000 2050 2050 30 0 2050 2050 10 000 All other 2015 2030 Total sales (thousands) 2030 2030 2050 2015 Total sales (thousands) Total sales (thousands) 2015 30 150 100 2 000 0 30 40 2015 2030 0 6 000 1 600 4 000 0 9 400 10 11 400 40 2 000 2050 150 100 Total sales (thousands) Total sales (thousands) 2 200 2030 2050 0 2015 0 9 400 16 500 Total sales (thousands) Total sales (thousands) 9 400 11 400 6 200 9 600 8 600 11 400 9 400 2015 2030 2 000 8 000 2030 4 000 2 8000 000 2050 6 200 4 000 2 000 6 000 10 000 India 2 000 2 000 6 000 2 000 All other 2050 2015 410000 000 2 200 2050 4 000 2030 6 000 All other 2030 0 8 000 8 000 4 000 2050 2050 10 000 10 000 2015 1 900 2030 0 2015 0 4 000 8 000 2015 Total sales (thousands) 2015 2 000 2 000 6 000 6 000 0 6 000 10 000 10 0 India 600 2020 0 50 2 000 000 8 2000 4 000 India 4 000 2 000 6 000 OECD Europe 2030 6 000 0 2050 2 000 2030 2015 2015 6 000 000 10 4000 8 000 4 000 600 100 6 200 1 900 150 2 200 4 000 8 000 50 4 000 6 000 6 000 India All other 10 000 Total sales (thousands) Vehicle sales must grow rapidly 2015 8 000 2 200 2012 8 000 Total sales (thousands) Total sales (thousands) 2010 10 000 6 000 10 000 150 0 10 000 China 6 000 100 10 6 200 8 000 20 China Total sales (thousands) 10 000 India 30 PHEV models 9 400 China Total sales (thousands) Number of models 30 11 400 8 000 170 3 800 6 400 3 100 8 000 10 000 Number of models offered through 2020 EV models 0 4 000 2 000 2050 10 000 8 000 2030 2015 4 000 OECD North America 0 2030 China 40 0 6 000 2 000 Total sales (thousands) 2015 Total sales (thousands) 5 900 2 100 4 700 260 400 22 000 1 300 1 900 6 400 PHEV sales 10 000 6 000 2050 150 8 600 0 2050 2030 2050 EV sales 8 000 8 000 China OECD Pacific 19 900 2 000 2030 2015 2030 4 000 10 000 2 8 000 000 2050 10 000 170 140 0 2015 0 2050 4 000 700 4140 700 2 000 2 000 6 000 6 000 OECD Pacific 6 200 2015 150 Total sales (thousands) 4 000 140 150 0 Total sales (thousands) 8 800 2015 2050 2030 2030 2030 9 600 2 000 3 800 Total sales (thousands) 5 900 6 400 2 1003 100 8 800 4 700 0 2015 2 000 2015 6 000 0 70 0 4 000 6 000 10 000 4 000 8 000 260 2 000 150 5 900 2 000 2 000 6 000 2 000 8 000 170 2050 4 000 4 000 10 000 OECD Europe Total sales (thousands) 2030 4 000 8 000 6 000 3 800 0 Battery costs for PHEVs and EVs must drop 2015 rapidly toward USD 300/kWh in order to bring vehicle costs to competitive levels. 10 000 8 000 2 100 3 800 2 100 2020 2 000 150 2015 4 000 6 000 10 000 260 0 2010 Total sales (thousands) 6 000 Target cost 170 200 OECD North America 6 000 OECD Europe OECD Pacific 8 000 8 000 140 8 000 10 000 PHEV sales Total sales (thousands)Total sales (thousands) 400 EV 000 sales 10 8 800 10 000 5 900 600 8 000 8 000 OECD North America OECD Europe OECD North America Total sales (thousands) Cost (USD/kWh) 800 10 000 3 800 Electric and plug-in hybridPHEV sales vehicle indicative sales targets in BLUE Map scenario PHEV sales Expected cost 260 1 000 8 800 EV sales EV sales OECD Pacific 10 000 9 600 Global map of regional EV/PHEV sales 10 000 52 200 OECD Europe OECD North America Battery costs through 2020 EV/PHEV roadmap milestones 2010 2020 2030 2040 Vehicle sales 7 million Global market share 9% Vehicle sales 30 million Global market share 30% 2050 Vehicle sales 70 million Global market share 48% Vehicle sales 100 million Global market share 60% Policy framework Adequate incentives for EV/PHEV purchase and production in line with targets; co-ordination of recharging infrastructure development in key areas EVs should become commercially viable without significant subsidies; support should continue for widespread expansion of recharching infrastructure Fast recharging options have achieved lower cost, with batteries well suited; support for widespread implementation of fast recharging as needed to ensure widespread availability Availability of higher power/energy-dense batteries should position policy makers to encourage remaining segments of light-duty vehicle markets to “go electric”, including greater use in larger, longer-distance vehicles Vehicles become fully commercial, batteries reach all target specifications for cost and durability, including additional cycling tolerance in line with advanced batteries; full recycling systems in place Batteries continue to improve; introduce a new generation of batteries that significantly outperform lithium-ion at a similar cost EVs achieve superiority to internal combustion engines in most respects, close the gap in driving range Common systems for vehicle-to-grid electricity sales, fast recharge and/or battery swapping well established Refine codes and standards as needed; modify to accommodate innovations in batteries, smart grid systems, etc., but minimise the need for reinvestments in existing systems Expansion of recharging infrastructure to more areas; greater use of fast recharging; fully established vehicle-to-grid electricity systems Completion of most recharging infrastructure in OECD and other major economies; expand globally as countries establish reliable, lowcarbon electricity generation systems Ongoing recharging infrastructure and generation system expansion and refinement as needed; with ongoing increase in systems and capacity to handle fast charging Continue RD&D on advanced battery designs moving towards demonstration and deployment as concepts mature; incorporate lessons learned from earlier experiences Achieve widespread introduction of next generation of battery, full deployment of smart-grid systems and related technologies Ongoing RD&D as needed; focus on improving battery performance to maximise vehicle driving range Vehicles/batteries Low- and medium-volume production, with design optimisations to 2015, then rapidly increase numbers of models offered and average production volumes; battery and other costs decline to target levels Codes/standards Ensure plugs and charging systems are compatible across major regions, including basic “smart metering” systems for home and public recharging stations; develop protocols for fast recharging Recharging/electricity infrastructure Establish home recharging and begin major investments in street/office daytime commercial recharging, including rapid charging where appropriate RD&D Ensure vehicle/battery systems are reliable and safe; achieve near-term technical and cost targets, such as USD 300/kWh battery cost; develop advanced battery concepts and prototypes International Energy Agency www.iea.org/roadmaps ■ H2 hybrid fuel cell ■ Conventional diesel ■ CNG/LPG ■ Hybrid (gasoline) ELECTRIC AND PLUG-IN■ Electric HYBRID VEHICLE roadmap ■ Plug-in hybrid gasoline ■ Plug-in hybrid diesel sales, ■ Conventional gasoline Annual light-duty vehicle ■ Diesel hybrid 2000-2050 BLUE Map scenario, Passenger LDV Sales (million) 180 160 140 Diesel hybrid 120 100 CNG/LPG H2 hybrid fuel cell l diese Conventional 80 60 rid ( Conventional gasoline 20 ybr Plug Hyb 40 Electric Plug -in h gaso -in h line) id d ybri iese d ga l solin e 0 2000 2005 2010 2015 2020 2025 2030 2035 2040 2045 2050 Key findings uu In addition to contributing significant greenhouse-gas emissions reductions, the roadmap’s level of EV/PHEV sales will deliver substantial benefits in terms of improved oil security, reduced urban area pollution and noise. uu Policy support is critical, especially in two areas: ensuring vehicles become cost-competitive and providing adequate recharging infrastructure. uu The consumer comes first: wider use of EVs/PHEVs will require an improved understanding of consumer needs and desires, as well as consumer willingness to change vehicle purchase and travel behaviour. uu Performance measurement will be needed: the IEA roadmap contains a set of proposed metrics and targets for key attributes like driving range and battery requirements to ensure that EVs/PHEVs achieve their potential. uu RD&D priorities: research, development and demonstration must continue to reduce battery costs and ensure adequate materials supply. More research is also needed on smart grids and the vehicle-grid interface. uu International collaboration can accelerate deployment: industry and governments need to work together on research programmes, codes and standards, and alignment of vehicle and infrastructure roll-out. © OECD/IEA, 2010 uu Roadmap vision: industry and governments should attain a combined EV/PHEV sales share of at least 50% of LDV sales worldwide by 2050.
