Dr. Ali Altaee
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Dr. Ali Altaee

Senior Lecturer
University of Technology, Australia

Highest Degree
Ph.D. in Environmental Engineering from University of Brighton, United Kingdom

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Area of Interest:

Environmental Sciences
100%
Environment Engineering
62%
Water and Sanitation
90%
Hydro Informatics
75%
Renewable Energy
55%

Research Publications in Numbers

Books
0
Chapters
0
Articles
0
Abstracts
0

Selected Publications

  1. Xu, B., M.B. Ahmed, J.L. Zhou, A. Altaee, G. Xu and M. Wu, 2018. Graphitic carbon nitride based nanocomposites for the photocatalysis of organic contaminants under visible irradiation: Progress, limitations and future directions. Sci. Total Environ., 633: 546-559.
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  2. Samaei, S.M., S. Gato-Trinidad and A. Altaee, 2018. The application of pressure-driven ceramic membrane technology for the treatment of industrial wastewaters-a review. Sep. Purif. Technol., 200: 198-220.
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  3. Jakowiecki, J., A. Sztyler, S. Filipek, P. Li and K. Raman et al., 2018. Aquaporin-graphene interface: Relevance to point-of-care device for renal cell carcinoma and desalination. Interface Focus, Vol. 8, No. 3. 10.1098/rsfs.2017.0066.
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  4. Altaee, A., J. Zou, A.A. Alanezi and A.H. Hawari, 2018. Osmotic power plant: Process innovation and future potential. Recent Adv. Petrochem. Sci., Vol. 4, No. 3. 10.19080/RAPSCI.2018.04.555640.
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  5. Altaee, A., G. Zaragoza, G.J. Millar, A.O. Sharif and A.A. Alanezi, 2018. Limitations of osmotic gradient resource and hydraulic pressure on the efficiency of dual stage PRO process. Desalin. Water Treat., 105: 11-22.
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  6. Altaee, A., A.A. Alanezi and A.H. Hawari, 2018. Forward Osmosis Feasibility and Potential Future Application for Desalination. In: Emerging Technologies for Sustainable Desalination Handbook, Gude, G. (Ed.). 1st Edn., Chapter 7, Elsevier Inc., USA., ISBN-13: 9780128158180.
  7. Xu, B., M.B. Ahmed, J.L. Zhou, A. Altaee, M. Wu and G. Xu, 2017. Photocatalytic removal of perfluoroalkyl substances from water and wastewater: Mechanism, kinetics and controlling factors. Chemosphere, 189: 717-729.
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  8. Altaee, A., S.R. Wahadj, A.O. Sharif, G. Zaragoza, M. Hamdan and M. Aryafar, 2017. Forward Osmosis for irrigation Water Supply Using Hybrid Membrane System for Draw Solution Regeneration. In: The Water-Food-Energy Nexus: Processes, Technologies and Challenges, Mujtaba, I.M., R. Srinivasan and N.O. Elbashir (Eds.). Chapter 1.3, CRC Press, Boca Raton, FL., USA., ISBN-13: 9781351649247, pp: 56-68.
  9. Altaee, A., P. Palenzuela, G. Zaragoza and A.A. AlAnezi, 2017. Single and dual stage closed-loop pressure retarded osmosis for power generation: Feasibility and performance. Applied Energy, 191: 328-345.
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  10. Altaee, A., J. Zhou, A.A. Alanezi and G. Zaragoza, 2017. Pressure retarded osmosis process for power generation: Feasibility, energy balance and controlling parameters. Applied Energy, 206: 303-311.
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  11. Altaee, A., J. Zhou, A.A. AlAnezi and G. Zhao, 2017. The Design and Optimization for a Closed-Loop Pressure Retarded Osmosis Process. In: Energy Efficiency: Performance, Improvement Strategies and Future Directions, Perez, J.E. (Ed.). Chapter 4, Nova Science, USA., ISBN: 978-1-53611-040-1, pp: 65-90.
  12. Altaee, A., G.J. Millar, G. Zaragoza and A. Sharif, 2017. Energy efficiency of RO and FO-RO system for high-salinity seawater treatment. Clean Technol. Environ. Policy, 19: 77-91.
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  13. Altaee, A., G. Zaragoza, E. Drioli and J. Zhou, 2017. Evaluation the potential and energy efficiency of dual stage pressure retarded osmosis process. Applied Energy, 199: 359-369.
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  14. Alanezi, A.A. and A. Altaee, 2017. Enhanced performance dual stage pressure retarded osmosis. Energy Procedia, 142: 4182-4197.
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  15. Hawari, A.H., N. Kamal and A. Altaee, 2016. Combined influence of temperature and flow rate of feeds on the performance of forward osmosis. Desalination, 398: 98-105.
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  16. Altaee, A., G.J. Millar, A.O. Sharif and G. Zaragoza, 2016. Forward osmosis process for supply of fertilizer solutions from seawater using a mixture of draw solutions. Desalin. Water Treat., 57: 28025-28041.
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  17. Altaee, A., G.J. Millar and G. Zaragoza, 2016. Integration and optimization of pressure retarded osmosis with reverse osmosis for power generation and high efficiency desalination. Energy, 103: 110-118.
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  18. Altaee, A., A.O. Sharif and M. Hamdan, 2016. Nanofiltration separation of highly concentrated multivalent electrolyte draw solution; a pilot plant study. Desalin. Water Treat., 57: 20237-20247.
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  19. Altaee, A., A.F. Ismail, A. Sharif, G. Zaragoza and P.C. Carvalho, 2016. Two-stage FO-BWRO/NF treatment of saline waters. Desalin. Water Treat., 57: 4842-4852.
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  20. Altaee, A., A.F. Ismail, A. Sharif and G. Zaragoza, 2016. Dual stage PRO process: Impact of the membrane materials of the process performance. Desalin. Water Treat., 57: 6172-6183.
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  21. Altaee, A., A. Sharif and G. Zaragoza, 2016. Forward Osmosis Pretreatment of Seawater for Thermal Desalination. In: Water Filtration Systems: Processes, Uses and Importance, Terrell, J. (Ed.). Chapter 1, Nova Science Publ., USA., ISBN: 978-1-63484-039-2, pp: 1-26.
  22. Altaee, A. and N. Hilal, 2016. Dual stage PRO power generation from brackish water brine and wastewater effluent feeds. Desalination, 389: 68-77.
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  23. Hamdan, M., A.O. Sharif, G. Derwish, S. Al-Aibi and A. Altaee, 2015. Draw solutions for Forward Osmosis process: Osmotic pressure of binary and ternary aqueous solutions of magnesium chloride, sodium chloride, sucrose and maltose. J. Food Eng., 155: 10-15.
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  24. Altaee, A., A. Sharif, G. Zaragoza and A.F. Ismail, 2015. Evaluation of FO-RO and PRO-RO designs for power generation and seawater desalination using impaired water feeds. Desalination, 368: 27-35.
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  25. Altaee, A., A. Sharif and G. Zaragoza, 2015. RETRACTED: Limitations of osmotic gradient resource and hydraulic pressure on the efficiency of dual stage PRO process. Renew. Energy, 83: 1234-1244.
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  26. Altaee, A., A. Mabrouk and K. Bourouni, 2015. Impact of Water Salinity on the Yield of Production Well: Forward Osmosis Seawater Pretreatment. In: Advances in Petroleum Engineering I: Refining, Pant, K.K., S. Sinha and S. Bajpai (Eds.). Chapter 10, Studium Press LLC, New Delhi, India, ISBN-13: 9781626990425.
  27. Altaee, A. and N. Hilal, 2015. High recovery rate NF-FO-RO hybrid system for inland brackish water treatment. Desalination, 363: 19-25.
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  28. Altaee, A. and N. Hilal, 2015. Design optimization of high performance dual stage pressure retarded osmosis. Desalination, 355: 217-224.
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  29. Altaee, A. and A. Sharif, 2015. Pressure retarded osmosis: Advancement in the process applications for power generation and desalination. Desalination, 356: 31-46.
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  30. Altaee, A. and A. Sharif, 2015. A conceptual NF/RO arrangement design in the pressure vessel for seawater desalination. Desalin. Water Treat., 54: 624-636.
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  31. Altaee, A., G. Zaragoza and H.R. van Tonningen, 2014. Comparison between forward osmosis-reverse osmosis and reverse osmosis processes for seawater desalination. Desalination, 336: 50-57.
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  32. Altaee, A., G. Zaragoza and A. Sharif, 2014. Pressure retarded osmosis for power generation and seawater desalination: Performance analysis. Desalination, 344: 108-115.
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  33. Altaee, A., A. Sharif, G. Zaragoza and N. Hilal, 2014. Dual stage PRO process for power generation from different feed resources. Desalination, 352: 118-127.
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  34. Altaee, A., A. Mabrouk, K. Bourouni and P. Palenzuela, 2014. Forward osmosis pretreatment of seawater to thermal desalination: High temperature FO-MSF/MED hybrid system. Desalination, 339: 18-25.
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  35. Altaee, A. and N. Hilal, 2014. Dual-stage forward osmosis/pressure retarded osmosis process for hypersaline solutions and fracking wastewater treatment. Desalination, 350: 79-85.
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  36. Altaee, A. and G. Zaragoza, 2014. A conceptual design of low fouling and high recovery FO-MSF desalination plant. Desalination, 343: 2-7.
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  37. Altaee, A., A. Mabrouk and K. Bourouni, 2013. A novel forward osmosis membrane pretreatment of seawater for thermal desalination processes. Desalination, 326: 19-29.
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  38. Altaee, A., 2013. Theoretical study on feed water designs to reverse osmosis pressure vessel. Desalination, 326: 1-9.
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  39. Altaee, A., 2012. Forward osmosis: Potential use in desalination and water reuse. J. Membr. Sep. Technol., 1: 79-93.
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  40. Altaee, A., 2012. Computational model for estimating reverse osmosis system design and performance: Part-one binary feed solution. Desalination, 291: 101-105.
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  41. Altaee, A., 2012. A computational model to estimate the performance of 8 inches RO membranes in pressure vessel. J. Membr. Sep. Technol., 1: 60-71.
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  42. Bourouni, K., T.B. M'Barek and A. Al Taee, 2011. Design and optimization of desalination reverse osmosis plants driven by renewable energies using genetic algorithms. Renew. Energy, 36: 936-950.
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  43. AlTaee, A. and A.O. Sharif, 2011. Alternative design to dual stage NF seawater desalination using high rejection brackish water membranes. Desalination, 273: 391-397.
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  44. Sharif, A.O., A.A. Merdaw, H. Al-Bahadili, A. Al-Taee, S. Al-Aibi, Z. Rahal and G.A.W. Derwish, 2009. A new theoretical approach to estimate the specific energy consumption of reverse osmosis and other pressure-driven liquid-phase membrane processes. Desalin. Water Treat., 3: 111-119.
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  45. Altaee, A., A.E. Al-Rawajfeh and Y.J. Baek, 2009. Application of vibratory system to improve the critical flux in submerged hollow fiber MF process. Sep. Sci. Technol., 45: 28-34.
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  46. Altaee, A., R. Smith and S. Mikhalovsky, 2008. The feasibility of decontamination of reduced saline sediments from copper using the electrokinetic process. J. Environ. Manage., 88: 1611-1618.
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