HPC MSU
Name:Omid Askari (Omid)
Associated Centers:Center for Advanced Vehicular Systems
Position:Faculty
Email: askari@cavs.msstate.edu
Office:Carpenter Hall, 201

Research Interest: Combustion, Auto-Ignition and Kinetic Analysis
High-pressure Spray and Combustion Characteristics at Engine-Relevant Conditions
Plasma-Assisted Combustion (non-thermal plasma)
Alternative and Low Greenhouse Gas Fuels
Flame Speed, Flame Structure and Flame Instability Studies
Spark Ignition, Flame Kernel and Plasma Formation
Laser Diagnostics and Optical Imaging Techniques

Publications: Askari, O. (2017). Calculation of Thermal Plasma Thermodynamic Properties for Arbitrary Gas Mixtures. International Mechanical Engineering Congress and Exposition. Tampa, FL. [Abstract]

Forghan, F., Askari, O., Narusawa, U., & Metghalchi, H. (2017). Cooling of Turbine Blades With Expanded Exit Holes: Computational Analyses of Leading Edge and Pressure-Side of a Turbine Blade. Journal of Energy Resources Technology. 139(4), 042004. [Abstract] [Document Site]

Yu, G., Askari, O., & Metghalchi, H. (2017). Theoretical Prediction of the Effect of Blending JP8 with Syngas on the Ignition Delay Time and Laminar Burning Speed. Proceedings of ECOS 2017 - The 30th International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems. San Diego, CA. [Abstract]

Yu, G., Metghalchi, H., & Askari, O. (2017). Combustion Simulation of Propane/Air Mixtures Using Rate-Controlled Constrained-Equilibrium. 10th U. S. National Combustion Meeting Organized by the Eastern States Section of the Combustion Institute. College Park, MD. [Abstract]

Yu, G., Askari, O., Hadi, F., Wang, Z., Metghalchi, H., Kannaiyan, K., & Sadr, R. (2017). Theoretical Prediction of Laminar Burning Speed and Ignition Delay Time of Gas-to-Liquid Fuel. Journal of Energy Resources Technology. 139(2), 022202. [Abstract] [Document Site]

Total Publications by this Author: 14