Tanvir Farouk
University of South Carolina
CombustionAnalytical chemistryChemistryAtmospheric pressurePlasma
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Publications 84
#1Ibrahim Sarikaya (USC: University of South Carolina)
#2Malik Tahiyat (USC: University of South Carolina)
Last. John W. Connell (LaRC: Langley Research Center)H-Index: 36
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Abstract This work is part of the National Aeronautics and Space Administration’s (NASA) Advanced Composite Project (ACP) focused on reducing the timeline to certification and directly follows guidelines provided by the Federal Aviation Administration (FAA, Advisory Circular 20-107B, 2010) on improved process controls for adhesively bonded airframe structures. High performance airframe composite structures require reliable fabrication and high fidelity bonding for assembled components. However, ...
Plasma initiation simulations in homogenous liquids in response to ~ 3.0 – 5.0 ns voltage pulse is conducted. An in-house numerical framework consisting of a compressible fluid solver together with charged species conservation and Poisson's equation solver is employed for the simulations. The simulations are conducted for a needle-like powered electrode with two different voltage profiles – linear and exponential increase. The model predictions show that under the influence of nanosecond voltage...
#1Sudipta Saha (USC: University of South Carolina)
#2Jamil A. Khan (USC: University of South Carolina)H-Index: 25
Last. Tanvir Farouk (USC: University of South Carolina)H-Index: 18
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Abstract. This paper describes a numerical study of the effect of evaporative cooling on forced convective heat transfer in a system experiencing combined heat and mass transport. A multi-dimensional mathematical model has been developed to conduct simulations over a range of operating parameters to acquire insight into the dual mode cooling where convective heat transfer is augmented by evaporative heat and mass transfer process. The system being modeled consists of a thin liquid water film tha...
1 CitationsSource
#1Shamia HoqueH-Index: 6
Last. Tanvir FaroukH-Index: 18
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#1Sudipta Saha (USC: University of South Carolina)
#2Amitav Tikadar (USC: University of South Carolina)H-Index: 2
Last. Tanvir Farouk (USC: University of South Carolina)H-Index: 18
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#1Tanvir FaroukH-Index: 18
#2Jamil A. KhanH-Index: 25
Last. Amitav TikadarH-Index: 2
view all 5 authors...
#1Yiguang Ju (Princeton University)H-Index: 57
#2Christopher B. Reuter (Princeton University)H-Index: 8
Last. Sang Hee Won (USC: University of South Carolina)H-Index: 3
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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...
2 CitationsSource