Learning dependent subsidies for lithium-ion electric vehicle batteries

Governments subsidize diffusion of a variety of energy technologies believed to provide social benefits. These subsidies are often based on the idea that stimulating learning and industry development will lower costs to make the technology competitive, after which point the subsidy can be removed. We investigate two questions related to the design of subsidy programs. One question is how net public investment changes with the time interval over which subsidies are reduced, i.e. semi-annually, annually, etc. Governments prefer to reduce subsidies more often to lower public costs, producers prefer longer time periods for a more stable investment environment. The second question addressed is uncertainty in learning rates. Learning rates describe the fractional cost reduction per doubling of cumulative production; slower learning implies more government investment is needed to reach a cost target. We investigate these questions via a case study of subsidizing electric vehicles (EV) in the United States. Given the importance of lithium battery cost in the price of an EV, we gather historical data to build an experience curve that describes cost reductions for lithium-ion vehicle batteries as a function of cumulative production. Our model assumes vehicle batteries experience the same learning as consumer electronics, yielding a learning rate of 22%. Using learning rates ranging from 9.5-22%, we estimate how much public subsidy would be needed to reach a battery cost target of $300/kWh battery. For a 9.5% learning rate, semi-annual, annual and biannual tapering costs a total of 24, 27, and 34 billion USD respectively. For 22% learning, semi-annual, annual and biannual tapering costs a total of 2.1, 2.3, and 2.6 billion USD respectively. While the tapering does affect program cost, uncertainty in learning rate is the largest source of variability in program cost, highlighting the importance of finding realistic ranges for learning rates when planning technology subsidies. (C) 2015 Elsevier Inc. All rights reserved.