Navid Zehtabiyan-Rezaie Research Group

Peer-reviewed Journal Papers

[21] N. Zehtabiyan-Rezaie, J.P. Justsen, and M. Abkar, “Wind-farm power prediction using a turbulence-optimized Gaussian wake model”, Wind Energy and Engineering Research 2(2024). 100007. https://doi.org/10.1016/j.weer.2024.100007

[20]* A. Amarloo, N. Zehtabiyan-Rezaie, and M. Abkar, “A progressive data-augmented RANS model for enhanced wind-farm simulations”, Energy 313(2024), 133762. https://doi.org/10.1016/j.energy.2024.133762

[19] N. Zehtabiyan-Rezaie, A. Amarloo, M. Abkar, “Secondary flows in actuator-disk simulations of wind-farm wakes”, Physics of Fluids 36(2024), 045142. https://doi.org/10.1063/5.0203068

[18] N. Zehtabiyan-Rezaie, M. Abkar, “An extended k-epsilon model for wake-flow simulation of wind farms”, Renewable Energy 222(2024), 119904. https://doi.org/10.1016/j.renene.2023.119904

[17] M. Abkar, N. Zehtabiyan-Rezaie, A. Iosidis, “Reinforcement learning for wind-farm flow control: Current state and future actions”, Theoretical and Applied Mechanics Letters, 13(2023), 100475. https://doi.org/10.1016/j.taml.2023.100475

[16] N. Zehtabiyan-Rezaie, M. Abkar, “A short note on turbulence characteristics in wind-turbine wakes”, Journal of Wind Engineering \& Industrial Aerodynamics 240(2023), 105504. https://doi.org/10.1016/j.jweia.2023.105504

[15]† N. Zehtabiyan-Rezaie, A. Iosifidis, and M. Abkar, “Physics-guided machine learning for wind-farm power prediction: Toward interpretability and generalizability”, PRX Energy 2(2023), 013009. https://doi.org/10.1103/PRXEnergy.2.013009

[14] A. Eidi, N. Zehtabiyan-Rezaie, R. Ghiassi, X. Yang, and M. Abkar, “Data-driven quantification of model-form uncertainty in Reynolds-averaged simulations of wind farms”, Physics of Fluids 34(2022), 085135. https://doi.org/10.1063/5.0100076

[13]‡ N. Zehtabiyan-Rezaie, A. Iosifidis, and M. Abkar, “Data-driven fluid mechanics of wind farms: A review”, Journal of Renewable and Sustainable Energy 14(2022), 032703. https://doi.org/10.1063/5.0091980

[12] N. Zehtabiyan-Rezaie, K. Adamiak, and M. Saffar-Avval, “Enhancement of evaporation from liquid surfaces due to electrohydrodynamic flow: A review”, Journal of Electrostatics, 114(2021) 103630. https://doi.org/10.1016/j.elstat.2021.103630

[11] N. Zehtabiyan-Rezaie, M. Saffar-Avval, and K. Adamiak, “Electrohydrodynamic water desalination: Evaluating the productivity and energy consumption”, Desalination, 497(2021) 114768. https://doi.org/10.1016/j.desal.2020.114768

[10] N. Zehtabiyan-Rezaie, M. Saffar-Avval, and K. Adamiak, “On the evaporation enhancement from saline water due to corona discharge generated EHD flow: A numerical and experimental study”, International Communications in Heat and Mass Transfer, 119(2020) 104988. https://doi.org/10.1016/j.icheatmasstransfer.2020.104988

[9] N. Zehtabiyan-Rezaie, M. Saffar-Avval, and K. Adamiak, “Forced convection heat transfer enhancement using a coaxial wire-tube corona system”, Journal of Electrostatics, 103(2020) 103415. https://doi.org/10.1016/j.elstat.2019.103415

[8] A. Arefian, N. Zehtabiyan-Rezaie, R. Hosseini Abardeh, “Numerical Investigation of a Pulse-Jet Filter Cleaning System Performance”, Amirkabir Journal of Mechanical Engineering, 51(6)(2020). https://doi.org/10.22060/mej.2018.12920.5469

[7] N. Zehtabiyan-Rezaie, N. Alvandifar, F. Saffaraval, M. Makkiabadi, N. Rahmati, M. Saffar-Avval, “A solar-powered solution for water shortage problem in arid and semi-arid regions in coastal countries”, Sustainable Energy Technologies and Assessments, 35(2019) 1-11. https://doi.org/10.1016/j.seta.2019.05.015

[6] M. Saffar-Avval, M.R. Eslami, N. Zehtabiyan-Rezaie, M.H. Nahavandian, “Status of Research in the Field of Engineering in Iran; with a Focus on Mechanical Engineering”, Iranian Journal of Engineering Education, 21(82)(2019) 31-57 (in Persian). https://doi.org/10.22047/ijee.2019.165328.1612

[5] N. Zehtabiyan-Rezaie, M. Saffar-Avval, and K. Adamiak, “Numerical investigation of water surface deformation due to corona discharge”, Journal of Electrostatics, 96(2018) 151-159. https://doi.org/10.1016/j.elstat.2018.10.015

[4] N. Zehtabiyan-Rezaie, A. Arefian, M. J. Kermani, A. Karmiri, and M. Abdollahzadeh, “Effect of flow field with converging and diverging channels on proton exchange membrane fuel cell performance”, Energy Conversion and Management, 152(2017) 31-44. https://doi.org/10.1016/j.enconman.2017.09.009

[3] N. Zehtabiyan-Rezaie, S. Rahimi Damirchi-Darasi, M. H. Fazel Zarandi, and M. Saffar-Avval, “Generalized Heat Transfer and Entropy Generation of Stratified Air-Water Flow in Entrance of a Mini-channel”, Scientia Iranica, 24(5)(2017) 2407-2417. https://doi.org/10.24200/sci.2017.4242

[2] N. Zehtabiyan-Rezaie, M. Mirzaei, and M. Saffar-Avval, “Numerical investigation of Magnetic Field Effect on Heat Transfer and Entropy Generation in Channel; New Approach for Fluid and Length Scale selections”, Heat Transfer Engineering, 38(13)(2017) 1222-1232. https://doi.org/10.1080/01457632.2016.1239961

[1] N. Zehtabiyan-Rezaie, M. Saffar-Avval, and M. Mirzaei, “Analytical and numerical investigation of heat transfer and entropy generation of stratified two-phase flow in mini-channel”, International Journal of Thermal Sciences, 90(2015) 24-37. https://doi.org/10.1016/j.ijthermalsci.2014.11.032

See the full list of publications in my Google Scholar.

* Joint first authorship.
†This paper has been selected for inclusion in the American Physical Society's Outreach-to-the-Press program. The Outreach-to-the-Press initiative involves the APS Physics press office distributing its most noteworthy papers to authors and journalists within the scientific community.

‡ This work has been selected as a Featured Article by the journal's Editors. The AIP Publishing also featured this article with a Scilight paper. Read it here: Shedding light on the state-of-the-art in data-driven modeling of wind farms