Arian Ebneyamini
Title: Adjunct Professor
Department: Energy Management
Campus: Vancouver
Area(s) of Expertise: Process Development and Simulation, Carbon Capture, Hydrogen Production, Clean Energy
Education Credentials: Ph.D.
Industry Credentials: P.Eng.
Joined New York Tech: 2020
Arian Ebneyamini received his Ph.D. in Chemical and Biological Engineering from the University of British Columbia. His research focuses on the development and simulation of novel processes for hydrogen production, carbon capture, and renewable energy systems. He has published several research papers in areas such as pervaporation (membrane separation) for biofuel purification, calcium-looping for high-temperature carbon capture, membrane-assisted fluidized bed reactors, and hydrogen production using chemical looping and sorbent-enhanced natural gas reforming processes.
Selected Publications
- Thermodynamic modelling of hydrogen production in sorbent‐enhanced biochar‐direct chemical looping process, LB Cheng, JY Kim, A Ebneyamini, ZJ Li, CJ Lim, N Ellis, The Canadian Journal of Chemical Engineering, 2023
- Particle sedimentation models for a commercial lithium extraction process from brine, H Liu, J Choi, A Ebneyamini, K Kim, M Martinez, J Grace, Chemical Engineering Science, 2022
- Effect of calcination temperature and extent on the multi-cycle CO2 carrying capacity of lime-based sorbents, A Ebneyamini, ZJ Li, JY Kim, JR Grace, CJ Lim, N Ellis, Journal of CO2 Utilization, 2021
- Connecting particle sphericity and circularity, JR Grace, A Ebneyamini, Particuology, 2021
- Toward autothermal and hydrogen‐producing sorbent regeneration for calcium‐looping, A Ebneyamini, J Grace, N Ellis, CJ Lim, The Canadian Journal of Chemical Engineering, 2021
- Sorbent steam reactivation and methane-concentrated calcination for calcium-looping carbon capture: Compatibilities and limitations, A Ebneyamini, JY Kim, ZJ Li, JR Grace, CJ Lim, N Ellis, Journal of Industrial and Engineering Chemistry, 2020
- Simulation of Sorbent-Enhanced Steam Methane Reforming and Limestone Calcination in Dual Turbulent Fluidized Bed Reactors, A Ebneyamini, JR Grace, CJ Lim, N Ellis, Energy & Fuels, 2020
- Simulation of autothermal hydrogen-producing limestone calcination for calcium looping in turbulent fluidized bed reactors, A Ebneyamini, J Grace, CJ Lim, N Ellis, S Elnashaie, A Mahecha-Botero, Chemical Engineering Science, 2020
- Simulation of Limestone Calcination for Calcium Looping: Potential for Autothermal and Hydrogen-Producing Sorbent Regeneration, A Ebneyamini, JR Grace, CJ Lim, N Ellis, SSEH Elnashaie, Industrial & Engineering Chemistry Research, 2019
- Separation of Organic Compounds from ABE Model Solutions via Pervaporation Using Activated Carbon/PDMS Mixed Matrix Membranes, H Azimi, A Ebneyamini, F Tezel, J Thibault, Membranes, 2018
- Description of butanol aqueous solution transport through commercial PDMS pervaporation membrane using extended Maxwell–Stefan model, A Ebneyamini, H Azimi, J Thibault, FH Tezel, Separation Science and Technology, 2018
- Mixed matrix membranes applications: Development of a resistance-based model, A Ebneyamini, H Azimi, FH Tezel, J Thibault, Journal of Membrane Science, 2017
- Modelling of mixed matrix membranes: Validation of the resistance-based model, A Ebneyamini, H Azimi, FH Tezel, J Thibault, Journal of Membrane Science, 2017
Courses Taught at New York Tech
- ENGY 775 Alternative Energy Systems