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Abdi, Iman Ashtiani, Khashehchi, Morteza and Hooman, Kamel (2013). A comparison between the separated flow structures near the wake of a bare and a foam-covered circular cylinder. In: ASME 2013 Fluids Engineering Division Summer Meeting, FEDSM 2013. ASME 2013 Fluids Engineering Division Summer Meeting, FEDSM 2013, Incline Village, NV, United States, (). 7-11 July 2013. doi:10.1115/FEDSM2013-16507 73 6 Cited 0 times in Scopus0 0
Khashehchi, M., Ashtiani Abdi, I., Hooman, K. and Roesgen, T. (2014) A comparison between the wake behind finned and foamed circular cylinders in cross-flow. Experimental Thermal and Fluid Science, 52 328-338. doi:10.1016/j.expthermflusci.2013.10.008 67   1 Cited 2 times in Scopus2 0
Khashehchi, M., Hooman, K., Roesgen, T. and Ooi, A. (2012). A comparison between the wake behind finned and foamed circular cylinders in cross-flow. In: 15th International Symposium on Flow Visualization. 15th International Symposium on Flow Visualization, Minsk, Belarus, (). 25-28 June 2012. 124 5
Hooman, K. and Guan, Z. (2013). Advances in air-cooled heat exchangers. In: Proceedings of the 16th IAHR Cooling Tower and Air-cooled Heat Exchanger Conference. 16th IAHR Cooling Tower and Air-cooled Heat Exchanger Conference (IAHR 16), Minsk, Belarus, (1-11). 30 September-2 October 2013. 104 17
Odabaee, Mostafa and Hooman, Kamel (2011). A fuel cell stack. WO/2011/150458. 80 35
Mousavi, S. S., Hooman, K. and Mousavi, S. J. (2007) A genetic algorithm optimization for a finned channel performance. Applied Mathematics and Mechanics, 28 12: 1597-1604. doi:10.1007/s10483-007-1206-z 150   6 Cited 8 times in Scopus8 0
Boyd, Ben and Hooman, Kamel (2012) Air-cooled micro-porous heat exchangers for thermal management of fuel cells. International Communications in Heat and Mass Transfer, 39 3: 363-367. doi:10.1016/j.icheatmasstransfer.2012.01.006 86   6 Cited 7 times in Scopus7 0
Hooman, Kamel and Haji-Sheikh, A. (2007) Analysis of heat transfer and entropy generation for a thermally developing Brinkman–Brinkman forced convection problem in a rectangular duct with isoflux walls. International Journal of Heat and Mass Transfer, 50 21-22: 4180-4194. doi:10.1016/j.ijheatmasstransfer.2007.02.036 333 524 33 Cited 34 times in Scopus34 0
Hooman, Kamel and Merrikh, Ali A. (2006) Analytical solution of forced convection in a duct of rectangular cross-section saturated by a porous medium. Journal of Heat Transfer, 128 6: 596-600. doi:10.1115/1.2188510 467   24 Cited 41 times in Scopus41 0
Ejlali, A, Aminossadati, S. M., Hooman, K and Beamish, B. B (2009) A new criterion to design reactive coal stockpiles. International Communications in Heat and Mass Transfer, 36 7: 669-673. doi:10.1016/j.icheatmasstransfer.2009.04.005 204   9 Cited 10 times in Scopus10 0
Pillai, Krishna M. and Hooman, Kamel (2013). An introduction to medeling flows in porous media. In Reza Masoodi and Krishna M. Pillai (Ed.), Wicking in porous materials: traditional and modern modeling approaches (pp. 55-96) Boca Raton, FL, United States: CRC Press. 26  
Pillai, Krishna M. and Hooman, Kamel (2013). An introduction to modeling flows in porous media. In Reza Masoodi and Krishna M. Pillai (Ed.), Wicking in porous materials: traditional and modern modeling approaches (pp. 55-96) Boca Raton, Florida: CRC Press. doi:10.1201/b12972-5 81 9 0
Hooman, Kamel (2008) A perturbation solution for forced convection in a porous saturated duct. Journal of Computational and Applied Mathematics, 211 1: 57-66. doi:10.1016/j.cam.2006.11.005 244 598 24 Cited 29 times in Scopus29 0
Ejlali, Azadeh, Ejlali, Arash, Hooman, Kamel and Gurgenci, Hal (2009) Application of high porosity metal foams as air-cooled heat exchangers to high heat load removal systems. International Communications in Heat and Mass Transfer, 36 7: 674-679. doi:10.1016/j.icheatmasstransfer.2009.03.001 246 716 28 Cited 34 times in Scopus34 0
Odabaee, Mostafa and Hooman, Kamel (2011) Application of metal foams in air-cooled condensers for geothermal power plants: An optimization study. International Communications in Heat and Mass Transfer, 38 7: 838-843. doi:10.1016/j.icheatmasstransfer.2011.03.028 130 81 11 Cited 12 times in Scopus12 0
Netscher, Nicholas W., Aminossadati, Saiied M. and Hooman, Kamel (2008) A Review of patents in tyre cooling. Recent Patents on Engineering, 2 2: 87-94. doi:10.2174/187221208784705233 264 2824 Cited 1 times in Scopus1 0
Hooman, K. (2008) A superposition approach to study slip-flow forced convection in straight microchannels of uniform but arbitrary cross-section. International Journal of Heat and Mass Transfer, 51 15-16: 3753-3762. doi:10.1016/j.ijheatmasstransfer.2007.12.014 161 380 34 Cited 39 times in Scopus39 0
Hooman, K. and Gurgenci, H. (2007) A theoretical analysis of forced convection in a porous-saturated circular tube: Brinkman-Forchheimer model. Transport In Porous Media, 69 3: 289-300. doi:10.1007/s11242-006-9074-3 136   9 Cited 12 times in Scopus12 0
Hooman K., Tamayol A., Dahari M., Safaei M.R., Togun H. and Sadri R. (2014) A theoretical model to predict gas permeability for slip flow through a porous medium. Applied Thermal Engineering, 70 1: 71-76. doi:10.1016/j.applthermaleng.2014.04.071 33   0 Cited 0 times in Scopus0 0
Sadafi M.H., Jahn I., Stilgoe A.B. and Hooman K. (2015) A theoretical model with experimental verification for heat and mass transfer of saline water droplets. International Journal of Heat and Mass Transfer, 81 1-9. doi:10.1016/j.ijheatmasstransfer.2014.10.005 18   Cited 1 times in Scopus1 0
Hooman, K. and Dukhan, N. (2013) A Theoretical model with experimental verification to predict hydrodynamics of foams. Transport in Porous Media, 100 3: 393-406. doi:10.1007/s11242-013-0222-2 31   2 Cited 2 times in Scopus2 0
Ejlali, A. and Hooman, K. (2011) Buoyancy effects on cooling a heat generating porous medium: Coal stockpile. Transport In Porous Media, 88 2: 235-248. doi:10.1007/s11242-011-9737-6 81 110 8 Cited 9 times in Scopus9 0
Forooghi P., Abdi I.A., Dahari M. and Hooman K. (2015) Buoyancy induced heat transfer deterioration in vertical concentric and eccentric annuli. International Journal of Heat and Mass Transfer, 81 222-233. doi:10.1016/j.ijheatmasstransfer.2014.10.009 15   Cited 0 times in Scopus0 0
Youselfi, S., Atrens, A. D., Sauret, E., Dahari, M. and Hooman, K. (2014) CFD convective flow simulation of the varying properties of CO2-H2O mixtures in geothermal systems. The Scientific World Journal, 843068.1-843068.8. 13 4
Odabaee, M., Shanechi, Mohsen Modir and Hooman, K. (2014). CFD simulation and FE analysis of a high pressure ratio radial inflow turbine. In: The Proceedings of the 19th Australasian Fluid Mechanics Conference. 19AFMC: 19th Australasian Fluid Mechanics Conference, Melbourne, VIC, Australia, (1-4). 8-11 December, 2014. 20 16
Sauret E., Hooman K. and Saha S.C. (2014). CFD simulations of flow and heat transfer through the porous interface of a metal foam heat exchanger. In: ASME 2014 Power Conference, POWER 2014, , (). July 28, 2014-July 31, 2014. doi:10.1115/POWER2014-32157 10   Cited 0 times in Scopus0 0
Hooman, K., Merrikh, Ali A. and Ejlali, Arash (2007) Comments on “Flow, thermal, and entropy generation characteristics inside a porous channel with viscous dissipation” by S. Mahmud and R.A. Fraser [Int. J. Thermal Sciences 44 (2005) 21–32]. International Journal of Thermal Sciences, 46 6: 614-616. doi:10.1016/j.ijthermalsci.2007.01.001 354 345 7 Cited 6 times in Scopus6 0
Dukhan, N. and Hooman, K. (2013) Comments on two analyses of thermal non-equilibrium Darcy-Brinkman convection in cylindrical porous media. International Journal of Heat and Mass Transfer, 66 440-443. doi:10.1016/j.ijheatmasstransfer.2013.06.058 32   2 Cited 0 times in Scopus0 0
Hooman, K. (2008) Comments on “Viscous-dissipation effects on the heat transfer in a Poiseuille flow” by O. Aydin and M. Avci. Applied Energy, 85 1: 70-72. doi:10.1016/j.apenergy.2007.06.003 237 311 5 Cited 4 times in Scopus4 0
Odabaee, Mostafa, Hooman, Kamel and Gurgenci, Hal (2009). Comparing the Tube Fin Heat Exchangers to Metal Foam Heat Exchangers for Geothermal Applications. In: A. Budd, The 2nd Annual Australian Geothermal Energy Conference, Brisbane Australia, (). 11-13 November 2009. 136 11
Goodarzi, M., Safaei, M. R., Karimipour, A., Hooman, K., Dahari, M., Kazi, S. N. and Sadeghinezhad, E. (2014) Comparison of the finite volume and lattice boltzmann methods for solving natural convection heat transfer problems inside cavities and enclosures. Abstract and Applied Analysis, 2014 762184.1-762184.15. doi:10.1155/2014/762184 36   1 Cited 3 times in Scopus3 0
Ji, Guozhao, Wang, Guoxiong, Hooman, Kamel, Bhatia, Suresh and Diniz da Costa, Joao C. (2012) Computational fluid dynamics applied to high temperature hydrogen separation membranes. Frontiers of Chemical Science and Engineering, 6 1: 3-12. doi:10.1007/s11705-011-1161-5 113 2 Cited 3 times in Scopus3 0
Odabaee, Mostafa, Sauret, Emilie and Hooman, Kamel (2014). Computational fluid dynamics simulation and turbomachinery code validation of a high pressure ratio radial-inflow turbine. In: HEFAT 2014: 10th International Conference on Heat Transfer, Fluid Mechanics and Thermodynamics, Orlando, FL, USA, (1-7). 14-16 July, 2014. 33 4
Saulov D.N., Watanabe S., Yin J., Klimenko D.A., Hooman K., Feng B., Cleary M.J. and Klimenko A.Y. (2014) Conditional methods in modeling CO2 capture from coal syngas. Energies, 7 4: 1899-1916. doi:10.3390/en7041899 16   0 Cited 0 times in Scopus0 0
Sadafi M.H., Jahn I. and Hooman K. (2015) Cooling performance of solid containing water for spray assisted dry cooling towers. Energy Conversion and Management, 91 158-167. doi:10.1016/j.enconman.2014.12.005 3   Cited 0 times in Scopus0 0
Hooman, Kamel (2010) Dry cooling towers as condensers for geothermal power plants. International Communications in Heat and Mass Transfer, 37 9: 1215-1220. doi:10.1016/j.icheatmasstransfer.2010.07.011 173 18 13 Cited 15 times in Scopus15 0
Mahmoudi, Amir Houshang and Hooman, Kamel (2013) Effect of a discrete heat source location on entropy generation in mixed convective cooling of a nanofluid inside the ventilated cavity. International Journal of Exergy, 13 3: 299-319. doi:10.1504/IJEX.2013.057353 63   1 Cited 1 times in Scopus1 0
Forooghi, Pourya and Hooman, Kamel (2013) Effect of buoyancy on turbulent convection heat transfer in corrugated channels - a numerical study. International Journal of Heat and Mass Transfer, 64 850-862. doi:10.1016/j.ijheatmasstransfer.2013.05.028 39   2 Cited 2 times in Scopus2 0
Ejlali, Arash, Hooman, Kamel and Beamish, Basil (2012) Effects of porosity changes on the self-heating characteristics of coal stockpiles. Journal of Porous Media, 15 9: 869-876. doi:10.1615/JPorMedia.v15.i9.50 83 1 1 Cited 1 times in Scopus1 0
Hooman, Kamel and Gurgenci, Halim (2008) Effects of temperature dependent viscosity on Bénard convection in a porous medium using a non-Darcy model. International Journal of Heat and Mass Transfer, 51 5-6: 1139-1149. doi:10.1016/j.ijheatmasstransfer.2007.04.013 230 504 14 Cited 16 times in Scopus16 0
Hooman, K. and Gurgenci, H. (2008) Effects of temperature-dependent viscosity on forced convection inside a porous medium. Transport in Porous Media, 75 2: 249-267. doi:10.1007/s11242-008-9220-1 128 7 15 Cited 16 times in Scopus16 0
Hooman, Kamel and Gurgenci, Halim (2007) Effects of temperature-dependent viscosity variation on entropy generation, heat and fluid flow through a porous-saturated duct of rectangular cross-section. Applied Mathematics and Mechanics, 28 1: 69-78. doi:10.1007/s10483-007-0108-z 389 1053 22 Cited 25 times in Scopus25 0
Famouri, M., Hooman, K. and Hooman, F. (2009) Effects of thermal boundary condition, fin size, spacing, tip clearance, and material on pressure drop, heat transfer, and entropy generation optimization for forced convection from a variable-height shrouded fin array. Heat Transfer Research, 40 3: 245-261. doi:10.1615/HeatTransRes.v40.i3 144 2 3 Cited 3 times in Scopus3 0
Hooman, Kamel and Gurgenci, H. (2007) Effects of viscous dissipation and boundary conditions on forced convection in a channel occupied by a saturated porous medium. 253 370
Hooman, Kamel and Gurgenci, H. (2007) Effects of viscous dissipation and boundary conditions on forced convection in a channel occupied by a saturated porous medium. Transport in Porous Media, 68 3: 301-319. doi:10.1007/s11242-006-9049-4 215 69 41 Cited 45 times in Scopus45 0
Hooman, K and Ejlali, A (2010) Effects of viscous heating, fluid property variation, velocity slip, and temperature jump on convection through parallel plate and circular microchannels. International Communications in Heat and Mass Transfer, 37 1: 34-38. doi:10.1016/j.icheatmasstransfer.2009.09.011 112   18 Cited 21 times in Scopus21 0
Hooman, Kamel (2010) Energy flux vectors as a new tool for convection visualization. International Journal of Numerical Methods for Heat and Fluid Flow, 20 2: 240-249. doi:10.1108/09615531011016984 90 247 7 Cited 8 times in Scopus8 0
Languri, Ehsan Mohseni, Taherian, Hessam, Hooman, Kamel and Reisel, John (2011) Enhanced double-pass solar air heater with and without porous medium. International Journal of Green Energy, 8 6: 643-654. doi:10.1080/15435075.2011.600379 92   1 Cited 6 times in Scopus6 0
Mostafa Odabaee, Hooman, Kamel and Gurgenci, Halim (2010). Entropy-energy analysis of metal foam heat exchangers as air-cooled heat exchangers. In: 3rd International Conference on Porous Media and its Applications in Science and Engineering ICPM, Montecatini, Italy, (). 20-25 June 2010. 65  
Hooman, K., Ejlali, A. and Hooman, F. (2008) Entropy generation analysis of thermally developing forced convection in fluid-saturated porous medium. Applied Mathematics and Mechanics, 29 2: 229-237. doi:10.1007/s10483-008-0210-1 131 234 9 Cited 12 times in Scopus12 0

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