2014
DOI: 10.4271/2014-01-9077
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Development of JP-8 Surrogates and their Validation using Ignition Quality Tester

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Cited by 17 publications
(17 citation statements)
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“…Table II shows the surrogate compositions used in the current work for various jet fuels listed in Table I. There are various approaches to formulate the surrogate mixture composition [27,28,29,30]. In the current work, the method proposed by Dooley et al [28] is adapted for the surrogate mixture formulation in which the DCN, H/C ratio and TSI of the actual fuel (listed in Table I) are matched with the model fuel mixture listed.…”
Section: Chemical Kinetics Modelingmentioning
confidence: 97%
“…Table II shows the surrogate compositions used in the current work for various jet fuels listed in Table I. There are various approaches to formulate the surrogate mixture composition [27,28,29,30]. In the current work, the method proposed by Dooley et al [28] is adapted for the surrogate mixture formulation in which the DCN, H/C ratio and TSI of the actual fuel (listed in Table I) are matched with the model fuel mixture listed.…”
Section: Chemical Kinetics Modelingmentioning
confidence: 97%
“…IQT, FIT, CVCC, and engine experiments 56,65,66,8184 complement the shock tube and RCM experiments as the effects of kerosene’s physical properties on autoignition are taken into consideration. It should be noted that the IQT and FIT experiments were done in accordance with ASTM D6890 and ASTM D7170 standards, respectively.…”
Section: Fundamental Autoignition Studies Of Kerosenementioning
confidence: 99%
“…Table 3 shows a compilation of the latest as well as significant kerosene surrogates from the literature, the number of species and reactions in their respective reaction mechanisms, as well as the target properties that each surrogate was made to emulate. 45,51,56,6870,82,85,154156,158,161,163186…”
Section: Development Of Kerosene Surrogates Their Chemical Reaction Mechanisms and The Modeling Of Kerosene Combustion In Dici Enginesmentioning
confidence: 99%
“…In previous publications of surrogate development, the DCN of a surrogate fuel was calculated based on a linearity assumption between the volume fraction and the DCN of its components [20,42]. However, calculated DCNs are not always consistent with measured DCNs [42].…”
Section: Derived Cetane Numbermentioning
confidence: 99%
“…Meanwhile, other properties such as density, H/C, MW of the surrogate fuels were optimized to match the target JP-8 by using a MATLAB code. The detailed description was provided in a previous publication [42].…”
Section: Derived Cetane Numbermentioning
confidence: 99%