Journals
- Ebrahim, M., Delbosc, N., Ortega, A., Wilson, M. C.T and Summers, J., “Simulation of the spreading of a gas-propelled micro-droplet upon impact on a dry surface using a lattice-Boltzmann approach”, Physics of Fluids, July 2017- Identified as newsworthywith a press release:
http://www.spacedaily.com/m/reports/Simulating_splash_at_the_microscopic_level_999.html?sfns=mo
- Ebrahim, M.and Ortega, A., “An Experimental Technique for Accelerating a Single Liquid Droplet to High Impact Velocities against a Solid Target Surface using a Propellant Gas”, Journal of Experimental Thermal and Fluid Science, 2017.81: p. 202-208
- Ebrahim, M.and Ortega, A., “Identification of the Impact Regimes of a Liquid Droplet Propelled by a Gas Stream Impinging onto a Dry Surface at Moderate to High Weber Number”, Journal of Experimental Thermal and Fluid Science, 2017. 80: p. 168-180
Conferences
- Oruganti, A., Amurao, A., Ebrahim, M., and Ortega, A., “An Experimental Study of a Single Droplet Impacting onto a Heated Surface at High Impact Weber Numbers”, Proc. of the IEEE-ITherm Conference, Las Vegas, NV USA, 2019
- Ebrahim, M., Silva, L., and Ortega, A., “Heat Transfer due to the Impingement of an Axisymmetric Synthetic Jet Emanating from a Circular Orifice: A Numerical Investigation of a Canonical Geometry,” Proc. of the 2013 International Technical Conference and Exhibition on Packaging and Integration of Electronic and Photonic Microsystems (InterPACK2013)
- Silva, L., Ebrahim, M., and Ortega, A., “Experiment and Simulation of Impinging Synthetic Jet Designed to Eliminate Actuator Artifacts,” Proc. of the ASME 2012 Summer Heat Transfer Conference HT2012
- Ebrahim, M., Ashrafizadeh, A. and Ghasemi, M., “ Development of an Algebraic Grid Generation for CFD applications”, ISME2009
- Ashrafizadeh, A., Ebrahim, M., Jalalabadi, R., Structured Grid Generation (SGG) Workshop, University of Waterloo, 03/27/2009
Book Chapter
- Ashrafizadeh, A., Ebrahim, M.and Jalalabadi, R. (2012). Alternative Methods for Generating Elliptic Grids in Finite Volume Applications, Finite Volume Method – Powerful Means of Engineering Design, PhD. Radostina Petrova (Ed.), ISBN: 978-953-51-0445-2, InTech