| Experimental investigation of optimum thermal performance and pressure drop of water-based Al2O3, TiO2 and ZnO nanofluids flowing inside a circular … A Topuz, T Engin, A Alper Özalp, B Erdoğan, S Mert, A Yeter Journal of Thermal Analysis and Calorimetry 131, 2843-2863, 2018 | 46 | 2018 |
| Optimum surface profile design and performance evaluation of inclined slider bearings AA Ozalp, H Umur Current science, 1480-1491, 2006 | 31 | 2006 |
| Laminar boundary layer development around a circular cylinder: fluid flow and heat-mass transfer characteristics A Alper Ozalp, I Dincer | 16 | 2010 |
| Single track geometry prediction of laser metal deposited 316L-Si via multi-physics modelling and regression analysis with experimental validation M Biyikli, T Karagoz, M Calli, T Muslim, AA Ozalp, A Bayram Metals and Materials International 29 (3), 807-820, 2023 | 14 | 2023 |
| Hydrodynamic-thermal boundary layer development and mass transfer characteristics of a circular cylinder in confined flow AA Ozalp, I Dincer International journal of thermal sciences 49 (9), 1799-1812, 2010 | 14 | 2010 |
| Numerical analysis of choked converging nozzle flows with surface roughness and heat flux conditions AA Ozalp Sadhana 31, 31-46, 2006 | 14 | 2006 |
| Entropy analysis of laminar-forced convection in a pipe with wall roughness AA Ozalp International Journal of Exergy 6 (2), 249-275, 2009 | 13 | 2009 |
| An interactive software package for the investigation of hydrodynamic‐slider bearing‐lubrication AA Ozalp, SA Ozel Computer Applications in Engineering Education 11 (3), 103-115, 2003 | 11 | 2003 |
| Combined effects of pipe diameter, Reynolds number and wall heat flux and on flow, heat transfer and second-law characteristics of laminar-transitional micro-pipe flows AA Ozalp Entropy 12 (3), 445-472, 2010 | 10 | 2010 |
| A computational study to predict the combined effects of surface roughness and heat flux conditions on converging-nozzle flows AA Ozalp Transactions of the Canadian Society for Mechanical Engineering 29 (1), 67-80, 2005 | 10 | 2005 |
| 1st and 2nd law characteristics in a micropipe: integrated effects of surface roughness, heat flux and Reynolds number AA Ozalp Heat transfer engineering 30 (12), 973-987, 2009 | 9 | 2009 |
| An experimental investigation of the combined effects of surface curvature and streamwise pressure gradients both in laminar and turbulent flows AA Ozalp, H Umur Heat and mass transfer 39 (10), 869-876, 2003 | 9 | 2003 |
| Roughness induced forced convective laminar-transitional micropipe flow: energy and exergy analysis AA Ozalp Heat and mass transfer 45 (1), 31-46, 2008 | 8 | 2008 |
| Numerical investigation of heat and flow characteristics in a laminar flow past two tandem cylinders N Aydin, A Ozalp, I Karagoz Thermal Science 25 (4 Part A), 2807-2818, 2021 | 6 | 2021 |
| Fluid flow and heat transfer in transitional boundary layers: effects of surface curvature and free stream velocity H Umur, AA Ozalp Heat and mass transfer 43, 7-15, 2006 | 6 | 2006 |
| Nonadiabatic and frictional constant area duct flow: A visual software based simulation for compressible systems AA Ozalp Computer Applications in Engineering Education 14 (1), 64-75, 2006 | 5 | 2006 |
| Laminar and turbulent forced convection in accelerating and decelerating curved flows H Umur, AA Ozalp Current Science, 1237-1244, 2004 | 4 | 2004 |
| A computer‐assisted approach to industrial gas turbine performance calculation AA Ozalp Computer Applications in Engineering Education 7 (3), 171-179, 1999 | 4 | 1999 |
| Numerical modeling of the momentum and thermal characteristics of air flow in the intercooler connection hose A Uysal, AA Ozalp, A Korgavus, O Korgavus The International Journal of Advanced Manufacturing Technology 60 (5), 811-824, 2012 | 3 | 2012 |
| Laminar-transitional micropipe flows: energy and exergy mechanisms based on Reynolds number, pipe diameter, surface roughness and wall heat flux AA Ozalp Heat and Mass Transfer 48 (1), 17-34, 2012 | 2 | 2012 |
