1990-1999. For other publications see 2010s, 2000s, and 1980s pages.
"Concentrations and Production Rates for the Hydroxyl Radical in a Laminar Methane/Air Diffusion Flame." K.C. Smyth, P. J. H. Tjossem, A. Hamins, and J.H. Miller, Combustion and Flame 79, 366-380 (1990).
Cited by 91 as of Feb 20, 2018
"Mechanistic Studies of Toluene Destruction in Hydrocarbon Diffusion Flames." A. Hamins, D. Anderson, and J.H. Miller, Comb. Science and Tech. 71, 175-195 (1990).
Cited by 42 as of Feb 20, 2018
"The Kinetics of Polynuclear Aromatic Hydrocarbon Agglomeration in Flames." J.H. Miller, Proceedings of the Combustion Institute 23 91-98 (1990).
Cited by 80 as of Apr. 19, 2018
"Modeling the Growth of Polynuclear Aromatic Hydrocarbons in Diffusion Flames." J.H. Miller, D. R. Honnery, and J.H. Kent Proceedings of the Combustion Institute 24 1031-1039 (1992).
Cited by 5 as of Feb 20, 2018
"An Infrared Fault Detection Method for Hazardous Waste Incineration." J.T. McKinnon, E. Abraham, and J.H. Miller, Combust. Sci. Technol. 85, 391-403, (1992).
Cited by 4 as of Feb 20, 2018
"*n Transitions of Mono Halo Substituted Phenyl Radicals in Solid Argon at 12 K." P. Hassanzadeh and J.H. Miller, J. Phys. Chem. 96, 6570-6578 (1992).
Cited by 9 as of Feb 20, 2018
"Tunable Diode Laser Measurement of Carbon Monoxide Concentration and Temperature in a Laminar Methane/Air Diffusion Flame." J.H. Miller, S Elreedy, B. Ahvazi, F. Woldu, and P. Hassanzadeh, Appl. Optics 32(30), 6082-6089 (1993).
Cited by 81 as of Feb 20, 2018
"Comparison of Experimental and Computed Species Concentration and Temperature Profiles in Laminar, Two-dimensional Methane/Air Diffusion Flames." T.S. Norton, K.C. Smyth, J.H. Miller, and M.D. Smooke, Combust. Sci. Technol. 90., 1-34 (1993).
Cited by 110 as of Feb. 20, 2018
"Radical Concentration Measurements in Hydrocarbon Diffusion Flames." K.C. Smyth, T.S. Norton, J. H. Miller, M.D. Smooke, R. Puri, M. Moser, and R.J. Santoro, Springer Series in Chemical Physics (1994), 59 (Soot Formation in Combustion), 113-144.
"A study of carbon monoxide in a series of laminar ethylene / air diffusion flames using tunable diode laser absorption spectroscopy" R. Reed Skaggs and J.H. Miller, Combustion and Flame 100 (3) 430-439 (1995).
Cited by 37 as of Apr. 19, 2018
"Detection of polyatomic species in non-premixed flames using tunable diode laser absorption spectroscopy." Micahel P. Tolocka and J., Houston Miller Microchemical Journal 50(3), 397-342 (1994).
Cited by 8 as of Feb. 20, 2018
"Tunable Diode Laser Absorption Measurements of Carbon Monoxide and Temperature in a Time-varying, Methane/Air, Non-Premixed Flame." R.R. Skaggs and J.H. Miller, Proceedings of the Combustion Institute 26 1181-1188 (1996).
Cited by 24 as of Feb. 20, 2018
"An Evaluation of Potential Surrogate Compounds for the Monitoring of Destruction and Removal Efficiencies in a Non-Turbulent Laboratory Combustion System" Reed Skaggs, Michael P. Tolocka, and J. Houston Miller, Combustion Science and Technology 116, 399 (1996).
Cited by 5 as of Feb. 20, 2018
"Strategy for the simplification of nitric oxide chemistry in a laminar methane/air diffusion flamelet." Marro, Michael A. T.; Pivovarov, Michael A.; Miller, J. Houston. Combustion and Flame , 111(3), 208-221 (1997).
Cited by 16 as of Feb 20, 2018
"Acetone Fluorescence as a Conserved Scalar Marker in a Laminar Methane/Air Diffusion Flame" M.A.T. Marro and J.H. Miller, Combustion Science and Technology 140, 13-28, (1998).
Cited by 5 as of Feb 20, 2018
"The Effect of Global Equivalence Ratio and Postflame Temperature on the Composition of Emissions from Laminar Ethylene/Air Diffusion Flames " M.P. Tolocka, P.B. Richardson, and J.H. Miller, Combustion and Flame 118 (4) pp. 521-536 (1999).
Cited by 13 as of Feb 20, 2018
"Measurements of formaldehyde concentrations and formation rates in a methane-air, non-premixed flame and their implications for heat-release rate." Tolocka, Michael P.; Miller, J. Houston. Proceedings of the Combustion Institute 27 633-640 (1998).
Cited by 14 as of Feb 20, 2018
"Chelation of iron within the erythrocytic Plasmodium falciparum parasite by iron chelators", M. Loyevsky, C. John, B. Dickens, V. Hu, J.H. Miller, and V. R. Gordeuk, Molecular and Biochemical Parasitology. 101, 43-59 (1999).
Cited by 46 as of Feb 20, 2018