Mechanical and Materials Engineering, Department of
Combustion Research at University of Nebraska-Lincoln
2006
A New Multicomponent Diffusion Formulation for the Finite-Volume Method: Application to Convective Droplet Combustion, D. N. Pope and G. Gogos
Numerical Simulation of Fuel Droplet Extinction Due to Forced Convection,", D. N. Pope and G. Gogos
Combustion of Moving Droplets and Suspended Droplets: Transient Numerical Results, D. N. Pope, D. Howard, K. Lu, and G. Gogos
Effect of Gravity on Methanol Diffusion Flames Burning within a Forced Convective Environment, V. Raghavan, G. Gogos, V. Babu, and T. Sundararajan
Effects of Forced Convection and Surface Tension during Methanol Droplet Convection,”, V. Raghavan, D. N. Pope, and G. Gogos
Surface Tension Effects during Low Reynolds Number Methanol Droplet Combustion, V. Raghavan, D. N. Pope, D. Howard, and G. Gogos