Jarrahbashi, Dorrin individual record
Assistant Professor - Term Appoint
overview

Dr. Jarrahbashi's research focuses on developing new computational models suitable for high performance computing with high scalability to aid designing clean and efficient energy conversion devices. Her research experience encompasses computational fluid dynamics with applications in energy conversion in solar and thermal systems, energy storage, and engine emission control. Specifically, she studies reacting and non-reacting flows, single and multiphase flows, flow instability and mixing, liquid stream break-up, spray atomization, spray combustion, vortex dynamics, cavitating and condensating flows, thermal hydraulic behavior of supercritical flows for designing and optimizing supercritical carbon dioxide energy cycles.

education and training
selected publications
Academic Articles12
  • Shariatnia, S., Jangale, P., Mishra, R., Asadi, A., & Jarrahbashi, D (2022). Supercritical CO2-assisted atomization for deposition of cellulose nanocrystals: an experimental and computational study. Cellulose. 29(2), 1-22.
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  • Boyd, B., & Jarrahbashi, D (2021). Numerical study of the transcritical shock-droplet interaction. Physical Review Fluids. 6(11), 113601.
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  • Shariatnia, S., Asadi, A., & Jarrahbashi, D (2021). Experimental analysis of temperature effects in supercritical-assisted atomization. Physics of Fluids. 33(10), 103310-103310.
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  • Boyd, B., & Jarrahbashi, D (2021). Numerical method for reducing spurious pressure oscillations in transcritical flow simulations. International Conference on Liquid Atomization and Spray Systems (ICLASS). 1(1),
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  • Boyd, B., & Jarrahbashi, D (2021). Shock wave interaction with a transcritical fuel droplet. International Conference on Liquid Atomization and Spray Systems (ICLASS). 1(1),
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Conference Papers15
  • Boyd, B., & Jarrahbashi, D (2020). Video: Shock wave interaction with a near-critical fuel droplet. 73th Annual Meeting of the APS Division of Fluid Dynamics - Gallery of Fluid Motion, 73th Annual Meeting of the APS Division of Fluid Dynamics.
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  • Jarrahbashi, D., Pidaparti, S. R., Kang, T., & Ranjan, D (2018). Computational Analysis of Cermet Heat Exchangers for CSP Applications at High-Temperatures. 6th International Supercritical CO2 Power Cycles Symposium.
  • Jarrahbashi, D., Sirignano, W. A., Popov, P. P., & Hussain, F. (2017). Numerical simulation of liquid round jet atomization. Physical Review Fluids. 2(9), 090504.
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  • Kim, S., Jarrahbashi, D., & Genzale, C. (2017). The Role of Turbulent-Chemistry Interaction in Simulating End-of-Injection Combustion Transients in Diesel Sprays. SAE Technical Paper Series, WCX 17: SAE World Congress Experience. 1(March),
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Email
djarrahbashi@tamu.edu
First Name
Dorrin
Last Name
Jarrahbashi
mailing address
Texas A&M University; Mechanical Engineering; 3123 TAMU
College Station, TX 77843-3123
USA