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Publications

2012
Samia B, Ali F, Fouzi A. Numerical Integration of Abruptly Unsteady Flows in an Open Channel. Slovak Journal of Civil EngineeringSlovak Journal of Civil Engineering. 2012;20 :52-56.
Samia B, Ali F, Fouzi A. Numerical Integration of Abruptly Unsteady Flows in an Open Channel. Slovak Journal of Civil EngineeringSlovak Journal of Civil Engineering. 2012;20 :52-56.
Samia B, Ali F, Fouzi A. Numerical Integration of Abruptly Unsteady Flows in an Open Channel. Slovak Journal of Civil EngineeringSlovak Journal of Civil Engineering. 2012;20 :52-56.
Mebarki G, RAHAL S. Numerical investigation of two-phase turbulent flow in a vertical tube with evaporation,.; 2012.
Mebarki G, RAHAL S. Numerical Investigation of Two-phase Turbulent Flow in a Vertical with Evaporation.; 2012.
Mebarki G, RAHAL S. Numerical investigation of two-phase turbulent flow in a vertical tube with evaporation,.; 2012.
Mebarki G, RAHAL S. Numerical Investigation of Two-phase Turbulent Flow in a Vertical with Evaporation.; 2012.
Mebarki G, RAHAL S. Numerical investigation of two-phase turbulent flow in a vertical tube with evaporation. THMT-12. Proceedings of the Seventh International Symposium On Turbulence Heat and Mass Transfer. 2012.
Mebarki G, RAHAL S. Numerical investigation of two-phase turbulent flow in a vertical tube with evaporation. THMT-12. Proceedings of the Seventh International Symposium On Turbulence Heat and Mass Transfer. 2012.
Belkhiri Z, Zeroual M, Moussa HB, Zereg M, Zitouni B. Numerical simulation of exchange membrane fuel cells in different operating conditions. International journal of hydrogen energyInternational Journal of Hydrogen Energy. 2012;37 :5444-5451.
Belkhiri Z, Zeroual M, Moussa HB, Zereg M, Zitouni B. Numerical simulation of exchange membrane fuel cells in different operating conditions. International journal of hydrogen energyInternational Journal of Hydrogen Energy. 2012;37 :5444-5451.
Belkhiri Z, Zeroual M, Moussa HB, Zereg M, Zitouni B. Numerical simulation of exchange membrane fuel cells in different operating conditions. International journal of hydrogen energyInternational Journal of Hydrogen Energy. 2012;37 :5444-5451.
Belkhiri Z, Zeroual M, Moussa HB, Zereg M, Zitouni B. Numerical simulation of exchange membrane fuel cells in different operating conditions. International journal of hydrogen energyInternational Journal of Hydrogen Energy. 2012;37 :5444-5451.
Belkhiri Z, Zeroual M, Moussa HB, Zereg M, Zitouni B. Numerical simulation of exchange membrane fuel cells in different operating conditions. International journal of hydrogen energyInternational Journal of Hydrogen Energy. 2012;37 :5444-5451.
BELKHIRI Z, ZROAUL M, BENMOUSSA H, ZIREG M, ZITOUNI B. Numerical simulation of exchange membrane fuel cellsin different operating conditions. International Journal of Hydrogen EnergyInternational Journal of Hydrogen Energy. 2012;Vol. 37 :5444-4451.
BELKHIRI Z, ZROAUL M, BENMOUSSA H, ZIREG M, ZITOUNI B. Numerical simulation of exchange membrane fuel cellsin different operating conditions. International Journal of Hydrogen EnergyInternational Journal of Hydrogen Energy. 2012;Vol. 37 :5444-4451.
BELKHIRI Z, ZROAUL M, BENMOUSSA H, ZIREG M, ZITOUNI B. Numerical simulation of exchange membrane fuel cellsin different operating conditions. International Journal of Hydrogen EnergyInternational Journal of Hydrogen Energy. 2012;Vol. 37 :5444-4451.
BELKHIRI Z, ZROAUL M, BENMOUSSA H, ZIREG M, ZITOUNI B. Numerical simulation of exchange membrane fuel cellsin different operating conditions. International Journal of Hydrogen EnergyInternational Journal of Hydrogen Energy. 2012;Vol. 37 :5444-4451.
BELKHIRI Z, ZROAUL M, BENMOUSSA H, ZIREG M, ZITOUNI B. Numerical simulation of exchange membrane fuel cellsin different operating conditions. International Journal of Hydrogen EnergyInternational Journal of Hydrogen Energy. 2012;Vol. 37 :5444-4451.
IBRIR N, RAHAL S, Mebarki G. Numerical simulation of natural convection in a cavity filled with a liquid metal.; 2012.

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