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The Environmental Protection Agency, National Highway Traffic Safety Administration, and California Air Resources Board released the joint mid-term Technical Assessment Review of the light-duty GHG standards in July of 2016. The review generally asserted that the GHG standards adopted in calendar year 2012 for 2022-2025 model year vehicles were feasible. Although many different technologies were evaluated, the review did not assess the benefits of high compression ratio engines enabled by a high-octane low carbon fuel. This study fills in the gap in the Technical Assessment Review by examining the impacts of a 98-research octane number gasoline-ethanol blend with 25 percent ethanol. We find that this fuel would enable higher compression ratios to improve tailpipe greenhouse gas emissions by about 6 percent on most engines.

The Distillation Index (DI) is a measure of the volatility of gasoline, especially its tendency to vaporize in an engine at initial start-up and during warm up. On January 27, 1999 the U.S. domestic and import automotive manufacturers petitioned the US EPA to limit the DI of all U.S. gasoline to 1200 degrees Fahrenheit as a means of reducing in-use emissions and ensuring consistent cold start and warm-up driveability.[1] Air Improvement Resource, Inc. (AIR) completed a 1999 study that evaluated the benefits of a DI cap. Overall, the 1999 AIR study estimated that the DI cap would produce a 16 and 15 percent reduction in hydrocarbon (HC) and carbon monoxide (CO) exhaust, respectively, from gasoline vehicles nationally in 2020. [2] In 2000, the Alliance of Automobile Manufacturers sponsored a more compreshensive examination of the emission consequences of the DI cap on which this paper is based.