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Abstract
This analysis focuses on aviation biofuel production using fast pyrolysis from corn stover. Cellulosic biofuels carry a lot of risks, because conversion technology is expensive. As a result, incentives are needed to reduce the risk for private investors. The issue is choosing which policy
will provide the most reduction in risk, while providing a lowest cost to
the government. Uncertainty is added in benefit-cost analysis to fuel
price and four technical variables: capital cost, final fuel yield, hydrogen
cost, and feedstock cost. We look at the impact of two policies: reverse auction and capital subsidy. For the reverse auction and capital subsidy, we used contract lengths of 5, 10, and 15 years to see the impact a longer contract could have on the probability of loss. A reverse auction reduced more risk of investment. As the contract length increased, the probability of loss and coefficient of variation in net present value were
reduced substantially. When fuel price increased stochastically and a
contract length of 15 years was used, the probability of loss was reduced to
18.4 percent.