Faculty

Chairman

...

Dr. Antar Mohammed A
Department Chairman

Senior Research scholar, IRC-Membranes and Water Security 63 - 351 +966(13)860-2964 966-13-860 2949 (ME Dept) antar@kfupm.edu.sa
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Professor

Education

 

  • Ph.D., Mechanical Engineering, KFUPM, Dhahran, Saudi Arabia, 2014
  • M.Sc., Mechanical Engineering, KFUPM, Dhahran, Saudi Arabia, 2004
  • B.Sc., Mechanical Engineering, National University of Science &Technology, Pakistan, 2000

 

Courses Taught

  • ME 201: Dynamics
  • ME439: Solar Energy Conversion
  • ME 316: ThermoFluid Lab.
  • ME315: Heat Transfer
  • ME311: Engineering Fluid Mechanics
  • ME204: Thermodynamics II
  • ME203: Thermodynamics I
  • ME531: Advanced Thermodynamics
  • ME 539: Solar Energy Utilization

Research Scholar

Interdisciplinary Research Center for Sustainable Energy Systems (IRC-SES)

Research Areas

  • Evaporative Heat Exchangers
  • Desalination
  • Two-phase Flow
  • Thermo-economics
  • Heat Transfer and Thermodynamics
  • Energy

Representative Publications 

  • Lawag, R.A., Ali, H.M., Zahir, M.H., Qureshi, B.A., Investigation of PT 58 and PEG-6000-based finned heat sinks for thermal management of electronics, Journal of Cleaner Production, 2023, 390, 136101.
  • Qureshi, B.A., Qasem, N.A.A., Zubair, S.M., Normalized sensitivity analysis of electrodialysis desalination plants for mitigating hypersalinity, Separation and Purification Technology, 257: 117858, 2021.
  • Qasem, N.A.A., Zubair, S.M., Qureshi, B.A., Generous, M.M., The impact of thermodynamic potentials on the design of electrodialysis desalination plants, Energ. Conv. Manage., 205: 112448, 2020.
  • Qureshi, B.A., Zubair, S.M., Design of electrodialysis desalination plants by considering dimensionless groups and variable equivalent conductivity, Desalination, 430: 197-207, 2018.
    • Jamil, M.A., Qureshi, B.A., Zubair, S.M., Exergo-economic analysis of a seawater reverse osmosis desalination plant with various retrofit options, Desalination, 401: 88-98, 2017.
    • Qureshi, B.A., Zubair, S.M., Thiel, G.P., Lienhard V, J.H., The reversed chemical engine cycle, Desalination, 398: 256-264, 2016.
    • Siddiqui, O. K., Qureshi, B.A., Zubair, S.M., Dew point refrigeration systems: Normalized sensitivity analysis and impact of fouling, Int. J. Refrig., 55: 60-71, 2015.
    • Qureshi, B.A., Zubair, S.M., The impact of fouling on the condenser of a vapor compression refrigeration system: An experimental observation, Int. J. Refrig., 38: 260-266, 2014.
    • Qureshi, B.A., Zubair, S.M., Mechanical sub-cooling vapor compression systems: Current status and future directions, Int. J. Refrig., 36: 2097-2110, 2013.
    • Al-Sarkhi, A., Sarica, C., Qureshi, B.A., Modeling of droplet entrainment in co-current annular two-phase flow: A new approach, Int. J. Multiphase Flow, 39: 21-28, 2012.
    • Qureshi, B.A., Zubair. S.M., A Unified approach to predict evaporation losses in evaporative heat exchangers, Int. J. Refrig., 34: 1866-1876, 2011.

    Books

    • Qasem, N.A.A., Generous, M.M., Qureshi, B.A., Zubair, S.M., Thermodynamic and Thermophysical Properties of Saline Water: Models, Correlations and Data for Desalination and Relevant Applications, Springer Nature, 2023. https://doi.org/10.1007/978-3-031-35193-8

     

    Research scholar, IRC-Sustainable Energy Systems Bldg-63 Room-154 966-13-860 2685 966-13-860 2949 (ME Dept.) bqureshi@kfupm.edu.sa

    Associate Professor

    Education

     

    • Ph.D., Mechanical Engineering, KFUPM, Dhahran, Saudi Arabia, 2014
    • M.Sc., Mechanical Engineering, KFUPM, Dhahran, Saudi Arabia, 2004
    • B.Sc., Mechanical Engineering, National University of Science &Technology, Pakistan, 2000

     

    Courses Taught

    • ME 201: Dynamics
    • ME439: Solar Energy Conversion
    • ME 316: ThermoFluid Lab.
    • ME315: Heat Transfer
    • ME311: Engineering Fluid Mechanics
    • ME204: Thermodynamics II
    • ME203: Thermodynamics I
    • ME531: Advanced Thermodynamics
    • ME 539: Solar Energy Utilization

    Research Scholar

    Interdisciplinary Research Center for Sustainable Energy Systems (IRC-SES)

    Research Areas

    • Evaporative Heat Exchangers
    • Desalination
    • Two-phase Flow
    • Thermo-economics
    • Heat Transfer and Thermodynamics
    • Energy

    Representative Publications 

    • Lawag, R.A., Ali, H.M., Zahir, M.H., Qureshi, B.A., Investigation of PT 58 and PEG-6000-based finned heat sinks for thermal management of electronics, Journal of Cleaner Production, 2023, 390, 136101.
    • Qureshi, B.A., Qasem, N.A.A., Zubair, S.M., Normalized sensitivity analysis of electrodialysis desalination plants for mitigating hypersalinity, Separation and Purification Technology, 257: 117858, 2021.
    • Qasem, N.A.A., Zubair, S.M., Qureshi, B.A., Generous, M.M., The impact of thermodynamic potentials on the design of electrodialysis desalination plants, Energ. Conv. Manage., 205: 112448, 2020.
    • Qureshi, B.A., Zubair, S.M., Design of electrodialysis desalination plants by considering dimensionless groups and variable equivalent conductivity, Desalination, 430: 197-207, 2018.
      • Jamil, M.A., Qureshi, B.A., Zubair, S.M., Exergo-economic analysis of a seawater reverse osmosis desalination plant with various retrofit options, Desalination, 401: 88-98, 2017.
      • Qureshi, B.A., Zubair, S.M., Thiel, G.P., Lienhard V, J.H., The reversed chemical engine cycle, Desalination, 398: 256-264, 2016.
      • Siddiqui, O. K., Qureshi, B.A., Zubair, S.M., Dew point refrigeration systems: Normalized sensitivity analysis and impact of fouling, Int. J. Refrig., 55: 60-71, 2015.
      • Qureshi, B.A., Zubair, S.M., The impact of fouling on the condenser of a vapor compression refrigeration system: An experimental observation, Int. J. Refrig., 38: 260-266, 2014.
      • Qureshi, B.A., Zubair, S.M., Mechanical sub-cooling vapor compression systems: Current status and future directions, Int. J. Refrig., 36: 2097-2110, 2013.
      • Al-Sarkhi, A., Sarica, C., Qureshi, B.A., Modeling of droplet entrainment in co-current annular two-phase flow: A new approach, Int. J. Multiphase Flow, 39: 21-28, 2012.
      • Qureshi, B.A., Zubair. S.M., A Unified approach to predict evaporation losses in evaporative heat exchangers, Int. J. Refrig., 34: 1866-1876, 2011.

      Books

      • Qasem, N.A.A., Generous, M.M., Qureshi, B.A., Zubair, S.M., Thermodynamic and Thermophysical Properties of Saline Water: Models, Correlations and Data for Desalination and Relevant Applications, Springer Nature, 2023. https://doi.org/10.1007/978-3-031-35193-8

       

      Research scholar, IRC-Sustainable Energy Systems Bldg-63 Room-154 966-13-860 2685 966-13-860 2949 (ME Dept.) bqureshi@kfupm.edu.sa

      Assistant Professor

      Education

       

      • Ph.D., Mechanical Engineering, KFUPM, Dhahran, Saudi Arabia, 2014
      • M.Sc., Mechanical Engineering, KFUPM, Dhahran, Saudi Arabia, 2004
      • B.Sc., Mechanical Engineering, National University of Science &Technology, Pakistan, 2000

       

      Courses Taught

      • ME 201: Dynamics
      • ME439: Solar Energy Conversion
      • ME 316: ThermoFluid Lab.
      • ME315: Heat Transfer
      • ME311: Engineering Fluid Mechanics
      • ME204: Thermodynamics II
      • ME203: Thermodynamics I
      • ME531: Advanced Thermodynamics
      • ME 539: Solar Energy Utilization

      Research Scholar

      Interdisciplinary Research Center for Sustainable Energy Systems (IRC-SES)

      Research Areas

      • Evaporative Heat Exchangers
      • Desalination
      • Two-phase Flow
      • Thermo-economics
      • Heat Transfer and Thermodynamics
      • Energy

      Representative Publications 

      • Lawag, R.A., Ali, H.M., Zahir, M.H., Qureshi, B.A., Investigation of PT 58 and PEG-6000-based finned heat sinks for thermal management of electronics, Journal of Cleaner Production, 2023, 390, 136101.
      • Qureshi, B.A., Qasem, N.A.A., Zubair, S.M., Normalized sensitivity analysis of electrodialysis desalination plants for mitigating hypersalinity, Separation and Purification Technology, 257: 117858, 2021.
      • Qasem, N.A.A., Zubair, S.M., Qureshi, B.A., Generous, M.M., The impact of thermodynamic potentials on the design of electrodialysis desalination plants, Energ. Conv. Manage., 205: 112448, 2020.
      • Qureshi, B.A., Zubair, S.M., Design of electrodialysis desalination plants by considering dimensionless groups and variable equivalent conductivity, Desalination, 430: 197-207, 2018.
        • Jamil, M.A., Qureshi, B.A., Zubair, S.M., Exergo-economic analysis of a seawater reverse osmosis desalination plant with various retrofit options, Desalination, 401: 88-98, 2017.
        • Qureshi, B.A., Zubair, S.M., Thiel, G.P., Lienhard V, J.H., The reversed chemical engine cycle, Desalination, 398: 256-264, 2016.
        • Siddiqui, O. K., Qureshi, B.A., Zubair, S.M., Dew point refrigeration systems: Normalized sensitivity analysis and impact of fouling, Int. J. Refrig., 55: 60-71, 2015.
        • Qureshi, B.A., Zubair, S.M., The impact of fouling on the condenser of a vapor compression refrigeration system: An experimental observation, Int. J. Refrig., 38: 260-266, 2014.
        • Qureshi, B.A., Zubair, S.M., Mechanical sub-cooling vapor compression systems: Current status and future directions, Int. J. Refrig., 36: 2097-2110, 2013.
        • Al-Sarkhi, A., Sarica, C., Qureshi, B.A., Modeling of droplet entrainment in co-current annular two-phase flow: A new approach, Int. J. Multiphase Flow, 39: 21-28, 2012.
        • Qureshi, B.A., Zubair. S.M., A Unified approach to predict evaporation losses in evaporative heat exchangers, Int. J. Refrig., 34: 1866-1876, 2011.

        Books

        • Qasem, N.A.A., Generous, M.M., Qureshi, B.A., Zubair, S.M., Thermodynamic and Thermophysical Properties of Saline Water: Models, Correlations and Data for Desalination and Relevant Applications, Springer Nature, 2023. https://doi.org/10.1007/978-3-031-35193-8

         

        Research scholar, IRC-Sustainable Energy Systems Bldg-63 Room-154 966-13-860 2685 966-13-860 2949 (ME Dept.) bqureshi@kfupm.edu.sa

        Lecturer

        Education

         

        • Ph.D., Mechanical Engineering, KFUPM, Dhahran, Saudi Arabia, 2014
        • M.Sc., Mechanical Engineering, KFUPM, Dhahran, Saudi Arabia, 2004
        • B.Sc., Mechanical Engineering, National University of Science &Technology, Pakistan, 2000

         

        Courses Taught

        • ME 201: Dynamics
        • ME439: Solar Energy Conversion
        • ME 316: ThermoFluid Lab.
        • ME315: Heat Transfer
        • ME311: Engineering Fluid Mechanics
        • ME204: Thermodynamics II
        • ME203: Thermodynamics I
        • ME531: Advanced Thermodynamics
        • ME 539: Solar Energy Utilization

        Research Scholar

        Interdisciplinary Research Center for Sustainable Energy Systems (IRC-SES)

        Research Areas

        • Evaporative Heat Exchangers
        • Desalination
        • Two-phase Flow
        • Thermo-economics
        • Heat Transfer and Thermodynamics
        • Energy

        Representative Publications 

        • Lawag, R.A., Ali, H.M., Zahir, M.H., Qureshi, B.A., Investigation of PT 58 and PEG-6000-based finned heat sinks for thermal management of electronics, Journal of Cleaner Production, 2023, 390, 136101.
        • Qureshi, B.A., Qasem, N.A.A., Zubair, S.M., Normalized sensitivity analysis of electrodialysis desalination plants for mitigating hypersalinity, Separation and Purification Technology, 257: 117858, 2021.
        • Qasem, N.A.A., Zubair, S.M., Qureshi, B.A., Generous, M.M., The impact of thermodynamic potentials on the design of electrodialysis desalination plants, Energ. Conv. Manage., 205: 112448, 2020.
        • Qureshi, B.A., Zubair, S.M., Design of electrodialysis desalination plants by considering dimensionless groups and variable equivalent conductivity, Desalination, 430: 197-207, 2018.
          • Jamil, M.A., Qureshi, B.A., Zubair, S.M., Exergo-economic analysis of a seawater reverse osmosis desalination plant with various retrofit options, Desalination, 401: 88-98, 2017.
          • Qureshi, B.A., Zubair, S.M., Thiel, G.P., Lienhard V, J.H., The reversed chemical engine cycle, Desalination, 398: 256-264, 2016.
          • Siddiqui, O. K., Qureshi, B.A., Zubair, S.M., Dew point refrigeration systems: Normalized sensitivity analysis and impact of fouling, Int. J. Refrig., 55: 60-71, 2015.
          • Qureshi, B.A., Zubair, S.M., The impact of fouling on the condenser of a vapor compression refrigeration system: An experimental observation, Int. J. Refrig., 38: 260-266, 2014.
          • Qureshi, B.A., Zubair, S.M., Mechanical sub-cooling vapor compression systems: Current status and future directions, Int. J. Refrig., 36: 2097-2110, 2013.
          • Al-Sarkhi, A., Sarica, C., Qureshi, B.A., Modeling of droplet entrainment in co-current annular two-phase flow: A new approach, Int. J. Multiphase Flow, 39: 21-28, 2012.
          • Qureshi, B.A., Zubair. S.M., A Unified approach to predict evaporation losses in evaporative heat exchangers, Int. J. Refrig., 34: 1866-1876, 2011.

          Books

          • Qasem, N.A.A., Generous, M.M., Qureshi, B.A., Zubair, S.M., Thermodynamic and Thermophysical Properties of Saline Water: Models, Correlations and Data for Desalination and Relevant Applications, Springer Nature, 2023. https://doi.org/10.1007/978-3-031-35193-8

           

          Research scholar, IRC-Sustainable Energy Systems Bldg-63 Room-154 966-13-860 2685 966-13-860 2949 (ME Dept.) bqureshi@kfupm.edu.sa

          Graduate Assistants

          Education

           

          • Ph.D., Mechanical Engineering, KFUPM, Dhahran, Saudi Arabia, 2014
          • M.Sc., Mechanical Engineering, KFUPM, Dhahran, Saudi Arabia, 2004
          • B.Sc., Mechanical Engineering, National University of Science &Technology, Pakistan, 2000

           

          Courses Taught

          • ME 201: Dynamics
          • ME439: Solar Energy Conversion
          • ME 316: ThermoFluid Lab.
          • ME315: Heat Transfer
          • ME311: Engineering Fluid Mechanics
          • ME204: Thermodynamics II
          • ME203: Thermodynamics I
          • ME531: Advanced Thermodynamics
          • ME 539: Solar Energy Utilization

          Research Scholar

          Interdisciplinary Research Center for Sustainable Energy Systems (IRC-SES)

          Research Areas

          • Evaporative Heat Exchangers
          • Desalination
          • Two-phase Flow
          • Thermo-economics
          • Heat Transfer and Thermodynamics
          • Energy

          Representative Publications 

          • Lawag, R.A., Ali, H.M., Zahir, M.H., Qureshi, B.A., Investigation of PT 58 and PEG-6000-based finned heat sinks for thermal management of electronics, Journal of Cleaner Production, 2023, 390, 136101.
          • Qureshi, B.A., Qasem, N.A.A., Zubair, S.M., Normalized sensitivity analysis of electrodialysis desalination plants for mitigating hypersalinity, Separation and Purification Technology, 257: 117858, 2021.
          • Qasem, N.A.A., Zubair, S.M., Qureshi, B.A., Generous, M.M., The impact of thermodynamic potentials on the design of electrodialysis desalination plants, Energ. Conv. Manage., 205: 112448, 2020.
          • Qureshi, B.A., Zubair, S.M., Design of electrodialysis desalination plants by considering dimensionless groups and variable equivalent conductivity, Desalination, 430: 197-207, 2018.
            • Jamil, M.A., Qureshi, B.A., Zubair, S.M., Exergo-economic analysis of a seawater reverse osmosis desalination plant with various retrofit options, Desalination, 401: 88-98, 2017.
            • Qureshi, B.A., Zubair, S.M., Thiel, G.P., Lienhard V, J.H., The reversed chemical engine cycle, Desalination, 398: 256-264, 2016.
            • Siddiqui, O. K., Qureshi, B.A., Zubair, S.M., Dew point refrigeration systems: Normalized sensitivity analysis and impact of fouling, Int. J. Refrig., 55: 60-71, 2015.
            • Qureshi, B.A., Zubair, S.M., The impact of fouling on the condenser of a vapor compression refrigeration system: An experimental observation, Int. J. Refrig., 38: 260-266, 2014.
            • Qureshi, B.A., Zubair, S.M., Mechanical sub-cooling vapor compression systems: Current status and future directions, Int. J. Refrig., 36: 2097-2110, 2013.
            • Al-Sarkhi, A., Sarica, C., Qureshi, B.A., Modeling of droplet entrainment in co-current annular two-phase flow: A new approach, Int. J. Multiphase Flow, 39: 21-28, 2012.
            • Qureshi, B.A., Zubair. S.M., A Unified approach to predict evaporation losses in evaporative heat exchangers, Int. J. Refrig., 34: 1866-1876, 2011.

            Books

            • Qasem, N.A.A., Generous, M.M., Qureshi, B.A., Zubair, S.M., Thermodynamic and Thermophysical Properties of Saline Water: Models, Correlations and Data for Desalination and Relevant Applications, Springer Nature, 2023. https://doi.org/10.1007/978-3-031-35193-8

             

            Research scholar, IRC-Sustainable Energy Systems Bldg-63 Room-154 966-13-860 2685 966-13-860 2949 (ME Dept.) bqureshi@kfupm.edu.sa