Calendar

Eiyad Ahmad Abu-Nada

Dr. Eiyad Ahmad Abu-Nada

Professor, Department of Mechanical Engineering

Address: Abu Dhabi, UAE, P.O. Box: 127788

Telephone: +971-(0)2-5018486

Fax: +971-(0)2-4472442

Email:

CV

Dr. Abu-Nada is an Alexander von Humboldt (AvH) fellow and recipient of the Abdul-Hameed Shoman Award for Young Arab Researchers.

  • Ph.D., Mechanical Engineering, New Mexico State University (USA), 2001
  • M.Sc., Mechanical Engineering, Jordan University of Science and Technology (JOR), 1996
  • B.Sc., Mechanical Engineering, University of Jordan (JOR), 1994
  • Thermodynamics
  • Fluid Mechanics
  • Heat Transfer
  • Heat Transfer
  • CFD
  • Microfluidics/Nanofluidics

Scopus  

  • Abu-Nada, E., Oztop, H.F., Pop, I., (2016): Effects of surface waviness on heat and fluid flow in a nanofluid filled closed space with partial heating, Heat and Mass Transfer, Article in Press, DOI 10.1007/s00231-015-1714-0.

  • Abu-Nada, E., (2015): Dissipative particle dynamics simulation of natural convection using variable thermal properties, International Communications in Heat and Mass Transfer, 69, 84-93.

  • Abu-Nada, E., (2015): Dissipative Particle Dynamics simulation of combined convection in a vertical lid driven cavity with a corner heater, International Journal of Thermal Sciences, 92, 72-84.

  • Abu-Nada, E., (2015): Assessment of Dissipative Particle Dynamics to Simulate Combined Convection Heat Transfer: Effect of Compressibility, International Communications in Heat and Mass Transfer, 61, 49-60.

  • Abu-Nada, E., (2015): Mixed Convection Simulation using Dissipative Particle Dynamics, Numerical Heat Transfer Part A, 67 (7), 808-825.

  • Abu-Nada, E., Chamkha, A., (2014): Mixed convection flow of a nanofluid in a lid-driven cavity with a wavy wall, International Communications in Heat and Mass Transfer 57, 36–47

  • Masoud, Z., Alhazza, K., Abu-Nada, E. and Majeed, M., (2014): A hybrid command-shaper for double-pendulum overhead cranes, Journal of Vibration and Control, 20 (1), 24–37.

  • Mahmoudi, A., Abu-Nada, E., (2013): Combined effect of magnetic field and nanofluid variable properties on heat transfer enhancement in natural convection, Numerical Heat Transfer, Part A, 63 (6), 452-472.

  • Al-Hinti, I., Al-Ghandoor, A., Akash, B., Sakhrieh, A., Abu-Nada, E., (2013): A comparative analysis of energy indicators and CO2 emissions in 15 Arab countries, Int. J. Environment and Waste Management, 11, 129-147.

  • Chamkha, A., Abu-Nada, E., (2012): Mixed convection flow in single- and double- lid driven square cavities filled with water-Al2O3 Nanofluid: Effect of viscosity models, European Journal of Mechanics - B/Fluids, 36, 82-96. Haddad, Z., Oztop, H., Abu-Nada, E., Mataoui, A., (2012): A review on natural convective heat transfer of nanofluids, Renewable and Sustainable Energy Reviews, 16 (7), 5363-5378.

  • Haddad, Z., Abu-Nada, E., Oztop, H., Mataoui, A., (2012): Natural Convection in Nanofluids: Are the thermophoresis and Brownian motion effects significant in nanofluid heat transfer enhancement? International Journal of Thermal Sciences, 57, 152-162.

  • Abu-Nada, E., Oztop, H., Pop, I.(2012): Buoyancy induced flow in a nanofluid filled enclosure partially exposed to forced convection, Superlattices and Microstructure, 51 (3), 381-395.

  • Abu-Nada, E., Kumar, A., Asako, Y., M., Faghri, M., (2012): Dissipative Particle Dynamics for Complex Geometries using Non-orthogonal Transformation, International Journal for Numerical Methods in Fluids, 68, 324-340.

  • Abu-Nada, E., (2011), Energy Conservative Dissipative Particle Dynamics Simulation of Natural Convection in Liquids, ASME J. Heat Transfer 133, 112502.

  • Campo, A., Papari, M., Abu-Nada, E., (2011) Estimation of the minimum Prandtl number for binary gas mixtures formed with light helium and certain heavier gases: application to thermoacoustic refrigerators, Applied Thermal Engineering 31, 3142-3146. 

  • Abu-Nada, E., (2011): Rayleigh-Bénard Convection in Nanofluids: Effects of Temperature Dependent Properties, International Journal of Thermal Sciences 50, 1720-1730.

  • Abu-Nada, E., (2011): Modeling of Natural Convection in Differentially Heated Enclosures using Energy Conservative Dissipative Particle Dynamics, Journal of Molecular Simulation, 37(2), 135-152.

  • Oztop, H.F., Abu-Nada, E., Varol, Y., Al-Salem, K. (2011), Computational Analysis of non-isothermal temperature distribution on natural convection in nanofluid filled enclosures, Superlattices and Microstructure, 49, 453–467.

  • Abu-Nada, E., Oztop, H., (2011): Numerical Analysis of Al2O3/Water Nanofluids Natural Convection in Wavy Walled Cavity, Numerical Heat Transfer, Part A 59(5), 403-419.

  • Oztop, H.F., Abu-Nada, E., Varol, Y., Chamkha, A.: (2011) Natural convection in wavy enclosures with volumetric heat sources, International Journal of Thermal Sciences, 50(4), 502-514.

  • Abu-Nada, E., (2010): Natural Convection Heat Transfer Simulation using Energy Conservative Dissipative Particle Dynamics, Physical Review E, 81, 056704.

  • Abu-Nada, E., (2010): Modeling of Various Heat Transfer Problems using Dissipative Particle Dynamics, Numerical Heat Transfer Part A, 58, 660-679.

  • Sakhrieh, A., Abu-Nada, E., Akash, B., Al-Hinti I., Ghandoor, A., (2010): Performance of a Diesel Engine using a Gas Mixture with Variable Specific Heat Model, Journal of Energy Institute, 83(4), 217-224.

  • Abu-Nada, E., and Chamkha, A. (2010): Effect of Nanofluid Variable Properties on Natural Convection in Enclosures Filled with a CuO-EG-Water Nanofluid, Int. J. Thermal Sciences, 49, 2339-2352.

  • Abu-Nada, E., (2010): Heat Transfer Simulation using Energy Conservative Dissipative Particle Dynamics, Journal of Molecular Simulation, 36 (5), 382-390.

  • Abu-Nada, E., (2010): Effects of variable viscosity and thermal conductivity of CuO-Water nanofluid on heat transfer enhancement in natural convection: Mathematical Model and Simulation, ASME Journal of Heat Transfer, 132, 052401.

  • Abu-Nada, E., and Chamkha, A. (2010): Mixed Convection Flow in a Lid-Driven Inclined Square Enclosure Filled with a Nanofluid, European Journal of Mechanics - B/Fluids, 29(6), 472-482.

  • Abu-Nada, E., Masoud, Z., Oztop H., Campo, A., (2010): Effect of Nanofluid Variable Properties on Natural Convection in Enclosures, Int. J. Thermal Sciences, 49, 479-491. Sakhrieh, A., Abu-Nada, E., Al-Hinti I., Ghandoor, A., Akash, B. (2010): Computational Thermodynamic Analysis of Compression Ignition Engine, International Communications of Heat and Mass Transfer, 37(3), 299-303.

  • Kumar, A., Asako, Y., Abu-Nada, E., Krafczyk, M., Faghri, M., (2009): From Dissipative Particle Dynamics Scales to Physical Scales: A Coarse-graining Study for Water Flow in Microchannel, Microfluidics and Nanofluidics, 7(4), 467-477.

  • Abu-Nada, E., (2009): Effects of variable viscosity and thermal conductivity of Al2O3-water nanofluid on heat transfer enhancement in natural convection, Int. J. Heat and Fluid Flow, 30(4), 679-690.

  • Abu-Nada, E., and Oztop H., (2009): Effects of inclination angle on natural convection in enclosures filled with Cu-water nanofluid, , Int. J. Heat and Fluid Flow, 30 (4), 669-678.

  • Abu-Nada E., Akash B., Al-Hinti I.,. and Al-Sarkhi A., (2009): Performance of spark ignition engine under effect of friction using gas mixture model, Journal of the Energy Institute, 82(3), 198-206.

  • Abu-Nada, E., Ziyad, K., Saleh, M., and Ali, Y. (2008): Enhancement of Heat Transfer in Combined Convection around a Horizontal Cylinder using Nanolfuids, ASME Journal of Heat Transfer, 130, 084505.

  • Abu-Nada, E., (2008): Application of Nanofluids for Heat Transfer Enhancement of Separated Flows Encountered in a Backward Facing Step," Int. J. Heat and Fluid Flow, 29(1), 242-249.

  • Abu-Nada E., Masood, Z., Hijazi, A., 2008: Natural convection heat transfer enhancement in horizontal concentric annuli using nanofluids. International Communications in Heat and Mass Transfer, 35(5), 657-665.

  • Oztop H., and Abu-Nada, E., (2008): Numerical study of natural convection in a partially heated rectangular enclosure filled with nanofluids, International Journal of Heat and Fluid Flow, Int. J. Heat Fluid Flow, 29, 1326–1336.

  • Abu-Nada E., Al-Hinti I., Al-Sarkhi A. and Akash B. (2008): Effect of piston friction on the performance of SI engine: A new thermodynamic approach, ASME Journal of Engineering for Gas Turbines and Power, 130(2), 022802-1.

  • Al-Ghandoor, A., Al-Hinti, I., Akash, B., and Abu-Nada, E., (2008): Analysis of energy and exergy use in the Jordanian urban residential sector, International J. of Exergy, 5(4), 413-428.

  • Abu-Nada E. (2008): Investigation of entropy generation over a backward facing step under bleeding conditions, Energy Conversion and Management, 49(11), 3237-3242.

  • I. Al-Hinti, B. Akash, E. Abu-Nada, A. Al-Sarkhi (2008): Performance analysis of air-standard Diesel cycle using an alternative irreversible heat transfer approach, Energy Conversion and Management, 49(11), 3301-3304.

  • Al-Sarkhi, A., Akash, B., Abu Nada, E., Nijmeh, S., Al-Hinti, I. (2008): Prospects of geothermal energy utilization in Jordan, Energy Sources, 30(17), 1619-1627.

  • Abu-Nada, E., Al-Sarkhi, A., Akash, B., Al-Hinti I. (2007): Investigation of heat transfer and fluid flow characteristics of separated flows under the effect of suction and blowing, ASME Journal of Heat Transfer, 129, 1517-1528.

  • Abu-Nada E., Al-Hinti I., Al-Sarkhi A. and Akash B. (2007): Thermodynamic analysis of spark-ignition engine using a gas mixture model for the working fluid”. International Journal of Energy Research 31, 1031-1046.

  • Al-Sarkhi, A., Al-Hinti, I., Abu-Nada, E., Akash, B., (2007): Performance evaluation of a miller engine under various specific heat models, International Communications in Heat and Mass Transfer 34(7), 897-906.

  • Al-Hinti I, Al-Ghandoor A, Akash, B., Abu-Nada E. (2007): Energy saving and CO2 mitigation through restructuring Jordan’s transportation sector: The diesel passenger cars scenario, Energy Policy, 35(10), 5003-5011.

  • Abu-Nada, E., Akash, B., Al-Hinti, I., Al-Sarkhi, A., Nijmeh, S., Ibrahim, A., Shishan, A. (2007): “Numerical modeling of a geothermal standing column well, International J Energy Research, 32, 306-317.

  • Al-Sarkhi, A., Abu-Nada, E., Akash, B., Nijmeh, S. (2007): Performance Evaluation of Standing Column Well for Potential Application of Ground Source Heat Pump in Jordan, Energy Conversion and Management, 49(4), 863-872.

  • Abu-Nada E. (2006): Entropy generation due to heat and fluid flow in backward facing step flow with various expansion ratios International Journal of Exergy 3(4), 419 - 435.

  • Al-Sarkhi A., Abu-Nada E. and Batayneh M. (2006): Effect of drag reducing polymer on air–water annular flow in an inclined pipe, International Journal of Multiphase Flow 32, 926-934.

  • Abu-Nada E., Al-Hinti I., Al-Sarkhi A. and Akash B. (2006): Thermodynamic modeling of spark-ignition engine: Effect of temperature dependent specific heats, International Communications in Heat and Mass Transfer Volume 33(10), 1264-1272.

  • Abu-Nada, E. (2005): Numerical prediction of entropy generation in separated flow" Entropy 7(4), 234-252.

  • Al-Srakhi, A., Abu-Nada, E. (2005): Characteristics of forced convection heat transfer in vertical internally finned tube, International Communications in Heat and Mass Transfer 32, 557-564.

  • Abu-Nada, E., Al-Sarkhi, A., Ashhab, M., and Akash, B. (2003): The effect of suction boundary condition on the local and average Nusselt numbers for a free convection flow regime, International Communications of Heat and Mass Transfer 30( 3), 423-433.

  • Al-Sarkhi, A., Abu-Nada, E., Akash, B., and Jaber, J.O. (2003): Numerical investigation of shrouded fin array under combined free and forced convection, International Communications of Heat and Mass Transfer 30(3), 435-444.

  • Al-Sarkhi, A., Akash, B., and Jaber, J.O., Mohsen M.S., Abu-Nada, E., (2002): Efficiency of Miller engine at maximum power density,” International Communications of Heat and Mass Transfer, 29 (8), 1159-1167.

  • Abu-Hijleh, B. A, Abu-Qudais, M., and Abu-Nada, E. (1999): Numerical Prediction of Entropy Generation due to Natural Convection from a Horizontal Cylinder," Energy, 24(4), pp. 327-333.

  • Abu Hijleh, B. A., Jaddallah, I.N., and Abu-Nada, E. (1999): Entropy Generation due to Natural Convection from a Horizontal Isothermal Cylinder in Oil, International Communications in Heat and Mass Transfer, 25(8), pp. 1135-1143.

  • Abu-Hijleh, B. A/K, Abu-Qudais, M., and Abu Nada, E. (1998): Entropy Generation due to Laminar Natural Convection from a Horizontal Isothermal Cylinder," ASME Journal of Heat Transfer. 120(4), 1089-1091.