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Tanvir Farouk
University of South Carolina
61Publications
17H-index
849Citations
Publications 61
Newest
Yiguang Ju54
Estimated H-index: 54
(Princeton University),
Christopher B. Reuter7
Estimated H-index: 7
(Princeton University)
+ -3 AuthorsSang Hee Won2
Estimated H-index: 2
(USC: University of South Carolina)
Abstract Cool flames play a critical role in ignition timing, burning rate, burning limits, engine knocking, and emissions in conventional and advanced combustion engines. This paper provides an overview of the recent progress in experimental and computational studies of cool flames. First, a brief review of low-temperature chemistry and classical studies of cool flames is presented. Next, the recent experimental and computational findings of cool flames in microchannels, microgravity droplet co...
Published on Jan 21, 2019
Travis W. Knight8
Estimated H-index: 8
(USC: University of South Carolina),
Tanvir Farouk17
Estimated H-index: 17
(USC: University of South Carolina)
+ 3 AuthorsJoshua Tarbutton7
Estimated H-index: 7
(UNCC: University of North Carolina at Charlotte)
Published on Jan 1, 2019
Fahd E. Alam4
Estimated H-index: 4
(USC: University of South Carolina),
Ali Charchi Aghdam (USC: University of South Carolina)+ 1 AuthorsTanvir Farouk17
Estimated H-index: 17
(USC: University of South Carolina)
Abstract This paper reports simulation results of oscillatory cool flame burning of an isolated, submillimeter sized n-heptane (n-C 7 H 16 ) droplet in a selectively ozone (O 3 ) seeded nitrogen-oxygen (N 2 -O 2 ) environments at atmospheric pressure. An evolutionary one-dimensional droplet combustion code encompassing relevant physics and detailed chemistry was employed to explore the roles of low-temperature chemistry, O 3 seeding, and dynamic flame structure on burning behaviors. For X O2 = 2...
Published on Jan 1, 2019
Tanvir Farouk17
Estimated H-index: 17
(USC: University of South Carolina),
Daniel L. Dietrich13
Estimated H-index: 13
(Glenn Research Center),
Frederick L. Dryer66
Estimated H-index: 66
(Princeton University)
Abstract Transient, isolated n -alkane droplet combustion is simulated at elevated pressure for helium-diluent substituted-air mixtures. We report the presence of unique quasi-steady, three-stage burning behavior of large sphero-symmetric n -alkane droplets at these elevated pressures and helium substituted ambient fractions. Upon initiation of reaction, hot-flame diffusive burning of large droplets is initiated that radiatively extinguishes to establish cool flame burning conditions in nitrogen...
Published on Nov 1, 2018in Review of Scientific Instruments1.59
M. M. Tahiyat (USC: University of South Carolina), T. W. Knight (USC: University of South Carolina), Tanvir Farouk17
Estimated H-index: 17
(USC: University of South Carolina)
Published on Feb 1, 2018in Combustion and Flame4.12
Fahd E. Alam4
Estimated H-index: 4
(USC: University of South Carolina),
Sang Hee Won2
Estimated H-index: 2
(USC: University of South Carolina)
+ 1 AuthorsTanvir Farouk17
Estimated H-index: 17
(USC: University of South Carolina)
Abstract Cool flame combustion of individual and isolated sub-millimeter sized n -heptane ( n -C 7 H 16 ) and n -decane ( n -C 10 H 22 ) droplets are computationally investigated for atmospheric and higher operating pressure (25 atm) conditions with varying levels of ozone (O 3 ) mole fractions in the surroundings. A sphero-symmetric, one-dimensional, transient, droplet combustion model is utilized, employing reduced versions of detailed chemical kinetic models for the fuel species and an append...
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