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W2561350761 endingPage "25" @default.
W2561350761 startingPage "1" @default.
W2561350761 abstract "At a first glance, ethanol, toluene and methyl tert-butyl ether look nothing alike with respect to their molecular structures. Nevertheless, all share a similarly high octane number. A comprehensive review of the inner workings of such octane boosters has been long overdue, particularly at a time when feedstocks for transport fuels other than crude oil, such as natural gas and biomass, are enjoying a rapidly growing market share. As high octane fuels sell at a considerable premium over gasoline, diesel and jet fuel, new entrants into the refining business should take note and gear their processes towards knock resistant compounds if they are to maximize their respective bottom lines. Starting from crude oil, the route towards this goal is well established. Starting from biomass or natural gas, however, it is less clear what dots on the horizon to aim for. The goal of this paper is to offer insight into the chemistry behind octane boosters and to subsequently distill from this knowledge, taking into account recent advances in engine technology, multiple generic design rules that guarantee good anti-knock performance. Careful analysis of the literature suggests that highly unsaturated (cyclic) compounds are the preferred octane boosters for modern spark-ignition engines. Additional side chains of any variety will dilute this strong performance. Multi-branched paraffins come in distant second place, owing to their negligible sensitivity. Depending on the type and location of functional oxygen groups, oxygenates can have a beneficial, neutral or detrimental impact on anti-knock quality." @default.
W2561350761 created "2017-01-06" @default.
W2561350761 creator A5005332754 @default.
W2561350761 creator A5057202023 @default.
W2561350761 creator A5065080571 @default.
W2561350761 creator A5084961868 @default.
W2561350761 date "2017-05-01" @default.
W2561350761 modified "2023-10-16" @default.
W2561350761 title "Impact of fuel molecular structure on auto-ignition behavior – Design rules for future high performance gasolines" @default.
W2561350761 cites W1488274780 @default.
W2561350761 cites W1545968138 @default.
W2561350761 cites W1568937258 @default.
W2561350761 cites W1599965259 @default.
W2561350761 cites W1743075205 @default.
W2561350761 cites W1840833423 @default.
W2561350761 cites W1963574559 @default.
W2561350761 cites W1964077073 @default.
W2561350761 cites W1967572454 @default.
W2561350761 cites W1971394554 @default.
W2561350761 cites W1971857577 @default.
W2561350761 cites W1972025495 @default.
W2561350761 cites W1972852947 @default.
W2561350761 cites W1973201167 @default.
W2561350761 cites W1983347298 @default.
W2561350761 cites W1984421823 @default.
W2561350761 cites W1985713999 @default.
W2561350761 cites W1986123368 @default.
W2561350761 cites W1986355909 @default.
W2561350761 cites W1987198281 @default.
W2561350761 cites W1987583730 @default.
W2561350761 cites W1988158079 @default.
W2561350761 cites W1988654317 @default.
W2561350761 cites W1990120737 @default.
W2561350761 cites W1994031814 @default.
W2561350761 cites W1995316658 @default.
W2561350761 cites W1995459619 @default.
W2561350761 cites W1995467410 @default.
W2561350761 cites W1995578129 @default.
W2561350761 cites W1995815598 @default.
W2561350761 cites W1996839889 @default.
W2561350761 cites W1997389831 @default.
W2561350761 cites W1999073765 @default.
W2561350761 cites W1999157777 @default.
W2561350761 cites W1999651503 @default.
W2561350761 cites W1999973858 @default.
W2561350761 cites W2002386117 @default.
W2561350761 cites W2003767109 @default.
W2561350761 cites W2008683220 @default.
W2561350761 cites W2009286824 @default.
W2561350761 cites W2011084153 @default.
W2561350761 cites W2011338216 @default.
W2561350761 cites W2011345796 @default.
W2561350761 cites W2012131615 @default.
W2561350761 cites W2012952975 @default.
W2561350761 cites W2015064849 @default.
W2561350761 cites W2015501241 @default.
W2561350761 cites W2015755223 @default.
W2561350761 cites W2015901825 @default.
W2561350761 cites W2016662555 @default.
W2561350761 cites W2016686136 @default.
W2561350761 cites W2017476613 @default.
W2561350761 cites W2017963835 @default.
W2561350761 cites W2018192648 @default.
W2561350761 cites W2019660969 @default.
W2561350761 cites W2019775951 @default.
W2561350761 cites W2021259110 @default.
W2561350761 cites W2022333924 @default.
W2561350761 cites W2022887558 @default.
W2561350761 cites W2024327607 @default.
W2561350761 cites W2024432222 @default.
W2561350761 cites W2025753354 @default.
W2561350761 cites W2026291154 @default.
W2561350761 cites W2026330665 @default.
W2561350761 cites W2027006897 @default.
W2561350761 cites W2029718229 @default.
W2561350761 cites W2030816781 @default.
W2561350761 cites W2032806166 @default.
W2561350761 cites W2034515730 @default.
W2561350761 cites W2037036039 @default.
W2561350761 cites W2038420348 @default.
W2561350761 cites W2038779576 @default.
W2561350761 cites W2038879024 @default.
W2561350761 cites W2039367953 @default.
W2561350761 cites W2039966920 @default.
W2561350761 cites W2041404118 @default.
W2561350761 cites W2044923415 @default.
W2561350761 cites W2046033679 @default.
W2561350761 cites W2046958326 @default.
W2561350761 cites W2048101253 @default.
W2561350761 cites W2048394449 @default.
W2561350761 cites W2048998010 @default.
W2561350761 cites W2049130572 @default.
W2561350761 cites W2049160711 @default.
W2561350761 cites W2050320511 @default.
W2561350761 cites W2050832613 @default.
W2561350761 cites W2050891247 @default.
W2561350761 cites W2052995041 @default.
W2561350761 cites W2054136982 @default.