Hi, I am Qusay F. Abdul Hameed Alsalhy, My LiveDNA is 964.9220
 
   
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Dr. Qusay F. Abdul Hameed Alsalhy
 
Highest Degree: Ph.D. in Chemical Engineering from East China University of Science & Technology, China
 
Institute: University of Technology, Iraq
 
Area of Interest: Physical Science Engineering
  •   Engineering
  •   Chemical Engineering
  •   Petroleum Engineering
  •   Desalination
 
URL: http://livedna.org/964.9220
 
My SELECTED Publications
1:   Abid, M.F., S.K. Al-Naseri, Q.F. Al-Sallehy, S.N. Abdulla and K.T. Rashid, 2011. Desalination of Iraqi surface water using nanofiltration membranes. Desalination Water Treat., 29: 174-180.
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2:   Alsalhy, Q., A. Merza, K. Rashid, A. Adam, A. Figoli, S. Simone and E. Drioli, 2013. Preparation and characterization of poly(vinyl chloride)/polystyrene/poly(ethylene glycol) hollow-fiber ultrafiltration membranes. J. Applied Polym. Sci., 130: 989-1004.
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3:   Alsalhy, Q., J.M. Ali and K. Salim, 2012. Effect of operating conditions on the performance of PVC/PS hollow fiber membranes. Eng. Technol. J., 30: 2767-2777.
4:   Alsalhy, Q., S. Algebory, G.M. Alwan, S. Simone, A. Figoli and E. Drioli, 2011. Hollow fiber ultrafiltration membranes from poly (vinyl chloride): Preparation, morphologies and properties. Sep. Sci. Technol., 46: 2199-2210.
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5:   Alsalhy, Q.F., 2012. Hollow fiber ultrafiltration membranes prepared from blends of poly (vinyl chloride) and polystyrene. Desalination, 294: 44-52.
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6:   Alsalhy, Q.F., 2012. Influence of spinning conditions on the morphology, pore size, pore size distribution, mechanical properties, and performance of PVC hollow fiber membranes. Sep. Sci. Technol., 48: 234-245.
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7:   Alsalhy, Q.F., H.A. Salih, R.H. Melkon, Y.M. Mahdi and N.A. Abdul Karim, 2014. Effect of the preparation conditions on the morphology and performance of poly(imide) hollow fiber membranes. J. Applied Polym. Sci., Vol. 131, No. 12. 10.1002/app.40428.
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8:   Alsalhy, Q.F., H.A. Salih, S. Simone, M. Zablouk, E. Drioli and A. Figoli, 2014. Poly(ether sulfone) (PES) hollow-fiber membranes prepared from various spinning parameters. Desalination, 345: 21-35.
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9:   Alsalhy, Q.F., J.M. Ali, A.A. Abbas, A. Rashed, B. Van der Bruggen and S. Balta, 2013. Enhancement of poly(phenyl sulfone) membranes with ZnO nanoparticles. Desalination Water Treat., 51: 6070-6081.
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10:   Alsalhy, Q.F., K.T. Rashid, S.S. Ibrahim, A.H. Ghanim, B. Van der Bruggen, P. Luis and M. Zablouk, 2013. Poly(vinylidene fluoride-co-hexafluoropropylene) (PVDF-co-HFP) hollow fiber membranes prepared from PVDF-co-HFP/PEG-600Mw/DMAC solution for membrane distillation. J. Applied Polym. Sci., 129: 3304-3313.
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11:   Alsalhy, Q.F., K.T. Rashid, W.A. Noori, S. Simone, A. Figoli and E. Drioli, 2012. Poly(vinyl chloride) hollow-fiber membranes for ultrafiltration applications: Effects of the internal coagulant composition. J. Applied Polym. Sci., 124: 2087-2099.
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12:   Alsalhy, Q.F., R.I. Ibrahim, H.A. Salih and M.A. Zablouk, 2014. Experimental investigation and optimization of air sparging on hollow fiber membrane performance. Am. J. Mod. Chem. Eng., 1: 40-54.
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13:   Alsalhy, Q.F., T.M. Albyati and M.A. Zablouk, 2013. A study of the effect of operating conditions on reverse osmosis membrane performance with and without air sparging technique. Chem. Eng. Commun., 200: 1-19.
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14:   Ibrahim, S.S. and Q.F. Alsalhy, 2013. Modeling and simulation for direct contact membrane distillation in hollow fiber modules. AIChE J., 59: 589-603.
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15:   Khayet, M., M.C. Garcia-Payo, F.A. Qusay and M.A. Zubaidy, 2009. Structural and performance studies of poly (vinyl chloride) hollow fiber membranes prepared at different air gap lengths. J. Membr. Sci., 330: 30-39.
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16:   Khayet, M., M.C. Garcia-Payo, F.A. Qusay, K.C. Khulbe, C.Y. Feng and T. Matsuura, 2008. Effects of gas gap type on structural morphology and performance of hollow fibers. J. Membr. Sci., 311: 259-269.
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17:   Li, B.B., Z.L. Xu, F.A. Qusay and R. Li, 2006. Chitosan-poly (vinyl alcohol)/poly (acrylonitrile) (CS-PVA/PAN) composite pervaporation membranes for the separation of ethanol-water solutions. Desalination, 193: 171-181.
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18:   Qusay, F.A. and Z.L. Xu, 2004. Numerical simulation of a mathematical model for dry/wet-spun nasceni hollow fiber membrane. J. Shanghai Univ. (English Edn.), 8: 213-220.
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19:   Qusay, F.A., 2004. Study effect of elongational viscosity on the velocity distribution for dry/wet-spun nascent hollow fiber membrane. Iraqi J. Chem. Pet. Eng., 5: 13-18.
20:   Qusay, F.A., 2007. Effect of ethanol concentrations in internal coagulant on the morphology and separation performance of Polyethersulfone (PES) hollow fiber UF membranes prepared by PES/ethanol/NMP solution. Eng. Technol., 25: 253-265.
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21:   Qusay, F.A., A. Figoli, S. Algebory, G.M. Alwan, S. Simone and E. Drioli, 2010. Polyvinyl Alcohol/Polyvinyl Chloride (PVA/PVC) hollow fiber composite nanofiltration membranes for water treatment. Iraqi J. Chem. Pet. Eng., 11: 23-32.
22:   Qusay, F.A., Z.L. Xu and X.T. Yang, 2006. Separation performance of horizontal and vertical polyethersulfone hollow fiber UF modules. J. Shanghai Univ. (English Edn.), 10: 173-178.
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23:   Saleh, N.J., A. Alhelaly, J.M. Ali and F.A. Qusay, 2009. Recovery of PVA using polyethersulfone (PES) hollow fiber, ultrafiltration membranes: Part II: Effect of carboxymethyl, cellulose (CMC) concentration. Eng. Technol. J., 27: 1008-1016.
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24:   Saleh, N.J., A. Alhelaly, N.A. Samira and F.A. Qusay, 2008. Effect of alcohol as additives on the morphology and separation performance of polyethersulfone (PES) hollow fiber ultrafiltration membranes. Eng. Technol., 26: 1263-1273.
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25:   Wei, Y.M., Z.L. Xu, F.A. Qusay and K. Wu, 2005. Polyvinyl alcohol/polysulfone (PVA/PSF) hollow fiber composite membranes for pervaporation separation of ethanol/water solution. J. Applied Polym. Sci., 98: 247-254.
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26:   Xu, Z.L. and F.A. Qusay, 2004. Effect of polyethylene glycol molecular weights and concentrations on polyethersulfone hollow fiber ultrafiltration membranes. J. Applied Polym. Sci., 91: 3398-3407.
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27:   Xu, Z.L. and F.A. Qusay, 2004. Polyethersulfone (PES) hollow fiber ultrafiltration membranes prepared by PES/non-solvent/NMP solution. J. Membr. Sci., 233: 101-111.
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