۱- Rashidi, I., Moin, H., Passandideh-Fard, Mo. and Pasandideh-fard, Ma., “Numerical Simulation of Partial Cavitation over Axisymmetric Bodies: VOF Method vs. Potential Flow Theory”, Journal of Aerospace Science and Technology (JAST), Vol. 5 (1), p.p 23-33, 2008.
Citations: 8 google scholar + Not WOS index + not Scopus
۲) Rashidi, I., Passandideh-Fard, Mo. and Pasandideh-fard, Ma., “The Optimum Design of a Cavitator for High-Speed Axisymmetric Bodies in Partially Cavitating Flows”, Journal of Fluids Engineering – Trans ASME, Vol. 135, 2013.
Citations: 8 google scholar + 3 WOS + 3 Scopus
۳) Rashidi, I., Mahian, O., Lorenzini, G., Biserni, C. and Wongwises, S., “Natural convection of Al2O3/water nanofluid in a square cavity: Effects ofheterogeneous heating”, International Journal of Heat and Mass Transfer, Vol. 74, p.p. 391–۴۰۲, ۲۰۱۴٫
Citations: 63 google scholar + 54 WOS + 61 Scopus
۴) Rashidi, I., Passandideh-Fard, Mo., Pasandideh-fard, Ma. and Nuri, N.M., “Numerical and Experimental Study of a Ventilated Supercavitating Vehicle”, Journal of Fluids Engineering – Trans ASME, Vol. 136, 2014.
Citations: 14 google scholar + 12 WOS + 13 Scopus
۵) Zamani, H., Mahian, O., Rashidi, I., Lorenzini, G. and Wongwises, S.,“Exergy Optimization of a Double Exposure Solar Cooker byResponse Surface Method”, Journal of Thermal Science and Engineering Applications- Trans ASME, 9 (1), 011003, 2017.
Citation: 3 google scholar + 3 WOS + 3 Scopus
۶) Anbarsoz M., Amiri M., Rashidi I., “A novel curtain design to enhance the aerodynamic performance of Invelox: A steady-RANS numerical simulation”, Energy 168 (2019) 207-221
Citations: 12 google scholar + 10 WOS + 11 Scopus
۷) M Anbarsooz, M Amiri, I Rashidi, M Javadi, “Heat transfer augmentation in solar collectors using nanofluids: a review”, Current Biochemical Engineering 6 (2), 72-81.2020
Citation: 2 google scholar + Not index in WOS + + not Scopus
۸) Rashidi, I., Kolsi L., Ahmadi G., Mahian, O., Wongwises, S., Abu-Nada, E.,“ Three-dimensional modelling of natural convection and entropy generation in a vertical cylinder under heterogeneous heat flux using nanofluids”, International Journal of Numerical Methods for Heat & Fluid Flow, Vol. 30 No. 1, pp. 119-142, 2020 (Highly Cited Paper According to WOS)
Citation: 8 google scholar + 8 WOS + 7 Scopus