- Graduate Field Affiliations
- Aerospace Engineering
- Applied Mathematics
- Mechanical Engineering
Biography
Dr. Sobhani received her doctorate degree in mechanical engineering from Stanford University, where she also completed her bachelor’s and master’s degrees. Her dissertation focused on volume-averaged and pore-scale simulations of combustion in porous materials as well as non-intrusive x-ray diagnostics development. During her PhD, she worked as a research associate at the NASA Ames Research Center, where she combined high-fidelity simulations with x-ray tomography to study radiative heat transfer in thermal protection fibrous materials. She later joined the Lawrence Livermore National Laboratory as a postdoctoral researcher in the simulation and modeling of electrochemical systems for carbon conversion. After a decade of studying and working in the bay area, she moved across the country to join the faculty at the Sibley School of Mechanical and Aerospace Engineering.
Research Interests
Dr. Sobhani’s research activities focus on thermal management and energy conversion with the goal of impacting innovations in high-efficiency, low-emission, and robust energy systems. Her work includes the computational and experimental investigation of flow, heat transfer and chemical reactions in porous media. Leveraging the connection between the micro-scale features and macro-scale transport properties, her lab researches rigorous pathways to apply topology optimization techniques combined with additive manufacturing and non-intrusive diagnostics to design, fabricate and analyze tailored porous structures in combustion, electrochemistry, and other complex flow systems.
- Heat and Mass transfer
- Energy Systems
- Thermal Systems
- Combustion
- Sustainable Energy Systems
- Space Science and Engineering
- Computational Fluid Dynamics
- Materials Design
- Rapid Prototyping
- Advanced Manufacturing and Materials
Select Publications
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Sobhani, S., Legg, J., Bartz, D., Sullivan, J., Kojima, J., Moder, J., Ihme M. (2019). Experimental investigation of lean premixed pre-vaporized liquid-fuel combustion in porous media burners at elevated pressures up to 20 bar. Combustion and Flame.
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Sobhani, S., Mohaddes, D., Boigne, E., Muhunthan, P., & Ihme, M. (2019). Modulation of heat transfer for extended flame stabilization in porous media burners via topology gradation. Proceedings of the Combustion Institute, 37(4), 5697-5704.
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Dunnmon, J., Sobhani, S., Wu, M., Fahrig, R., & Ihme, M. (2017). An investigation of internal flame structure in porous media combustion via X-ray Computed Tomography. Proceedings of the Combustion Institute, 36(3), 4399-4408.
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Sobhani, S., Haley, B., Bartz, D., Dunnmon, J., Sullivan, J., & Ihme, M. (2017, June). Investigation of lean combustion stability, pressure drop, and material durability in porous media burners. In ASME Turbo Expo 2017: Turbomachinery Technical Conference and Exposition.
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Dunnmon, J., Sobhani, S., Kim, T. W., Kovscek, A., & Ihme, M. (2015). Characterization of scalar mixing in dense gaseous jets using X-ray computed tomography. Experiments in Fluids, 56(10), 193.
Select Awards and Honors
- Gallery of Fluid Motion Award, American Physical Society 2018
- Accel Innovation Scholarship, Stanford Technology Ventures Program 2017
- Graduate Public Service Fellowship, Haas Center for Public Service 2016
- Schneider/MAP Sustainable Energy Fellowship, Haas Center for Public Service 2016
- Graduate Research Fellowship, National Science Foundation 2015
Education
- B.S., Mechanical Engineering, Stanford University 2014
- M.S., Mechanical Engineering, Stanford University 2015
- Ph.D., Mechanical Engineering, Stanford University 2019
