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Mohammadhadi Hajilou
University of Wyoming
4Publications
2H-index
10Citations
Publications 4
Newest
#1Mohammadhadi Hajilou (UW: University of Wyoming)H-Index: 2
#2Matthew Q. Brown (UW: University of Wyoming)
Last.Erica Belmont (UW: University of Wyoming)H-Index: 5
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Abstract Low temperature combustion of n-heptane was investigated through an experimental and numerical study of laminar cool flame structure and propagation speeds. Lean and stoichiometric n-heptane cool flames of equivalence ratios 0.4–1.0 were stabilized using a Hencken burner at sub-atmospheric pressures. Characterization of cool flame lift-off heights in burner-stabilized and freely propagating regimes was performed using broadband chemiluminescence and formaldehyde planar laser-induced flu...
#1Mohammadhadi Hajilou (UW: University of Wyoming)H-Index: 2
#2Erica Belmont (UW: University of Wyoming)H-Index: 5
Abstract A recently developed experimental setup for the study of cool flames was employed to investigate low temperature combustion of propane. Cool flames were stabilized though ozone activation using a laminar flat flame Hencken burner at sub-atmospheric pressures. Propane cool flame stability was observed to be highly sensitive to pressure, and a pressure stability map is presented for a range of equivalence ratios (ϕ) from 0.17 to 1.0 in 0.17 increments and a range of reactant flow rates. B...
#1Mohammadhadi Hajilou (UW: University of Wyoming)H-Index: 2
#2Timothy Ombrello (AFRL: Air Force Research Laboratory)H-Index: 16
Last.Erica Belmont (UW: University of Wyoming)H-Index: 5
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Abstract Experimental flame characterization is necessary for the development and validation of chemical kinetics models. Low temperature oxidation produces a cool flame, which is a combustion phenomenon resulting from negative temperature coefficient (NTC) behavior. Kinematic stabilization of premixed, freely propagating, ozone-activated, cool flames of dimethyl ether (DME) has been investigated at sub-atmospheric pressure of 7.3 kPa using a laminar flat flame Hencken burner. This platform perm...
#1S.R. Addamane (UW: University of Wyoming)H-Index: 1
#2Mohammadhadi Hajilou (UW: University of Wyoming)H-Index: 2
Last.Erica Belmont (UW: University of Wyoming)H-Index: 5
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Abstract A porous media fuel reformer featuring passive air entrainment and a surface-stabilized flame is demonstrated and utilized for the reformation of methane. Passive air entrainment negates the need for auxiliary resources beyond a source of compressed fuel gas for operation, making a reformer of this design promising for applications such as replacement of hydrocarbon flaring with syngas generation at isolated oil and gas production sites and generation of syngas in other remote locations...
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