PDF Publication Title:
Text from PDF Page: 029
Mathematics 2021, 9, 33 29 of 31 10. Giwa, A.; Akther, N.; Al Housani, A.; Haris, S.; Hasan, S.W. Recent advances in humidification dehumidification (HDH) desalination processes: Improved designs and productivity. Renew. Sustain. Energy Rev. 2016, 57, 929–944. [CrossRef] 11. Kabeel, A.E.; Hamed, M.H.; Omara, Z.M.; Sharshir, S.W. Experimental study of a humidification-dehumidification solar technique by natural and forced air circulation. Energy 2014, 68, 218–228. [CrossRef] 12. Hamed, M.H.; Kabeel, A.E.; Omara, Z.M.; Sharshir, S.W. Mathematical and experimental investigation of a solar humidification- dehumidification desalination unit. Desalination 2015, 358, 9–17. [CrossRef] 13. Bakthavatchalam, B.; Rajasekar, K.; Habib, K.; Saidur, R.; Basrawi, F. Numerical analysis of humidification dehumidification desalination system. Evergreen 2019, 6, 9–17. [CrossRef] 14. Zhani, K.; Ben Bacha, H. Experimental investigation of a new solar desalination prototype using the humidification dehumidifica- tion principle. Renew. Energy 2010, 35, 2610–2617. [CrossRef] 15. Elminshawy, N.A.S.; Siddiqui, F.R.; Sultan, G.I. Development of a desalination system driven by solar energy and low grade waste heat. Energy Convers. Manag. 2015, 103, 28–35. [CrossRef] 16. Narayan, G.P.; Sharqawy, M.H.; Summers, E.K.; Lienhard, J.H.; Zubair, S.M.; Antar, M.A. The potential of solar-driven humidification-dehumidification desalination for small-scale decentralized water production. Renew. Sustain. Energy Rev. 2010, 14, 1187–1201. [CrossRef] 17. Narayan, G.P.; Sharqawy, M.H.; Lienhard, V.J.H.; Zubair, S.M. Thermodynamic analysis of humidification dehumidification desalination cycles. Desalin. Water Treat. 2010, 16, 339–353. [CrossRef] 18. Narayan, G.P.; John, M.G.S.; Zubair, S.M.; Lienhard, J.H. Thermal design of the humidification dehumidification desalination system: An experimental investigation. Int. J. Heat Mass Transf. 2013, 58, 740–748. [CrossRef] 19. Narayan, G.P.; Chehayeb, K.M.; McGovern, R.K.; Thiel, G.P.; Zubair, S.M.; Lienhard, V.J.H. Thermodynamic balancing of the humidification dehumidification desalination system by mass extraction and injection. Int. J. Heat Mass Transf. 2013, 57, 756–770. [CrossRef] 20. Thiel, G.P.; Lienhard, J.H. Entropy generation in condensation in the presence of high concentrations of noncondensable gases. Int. J. Heat Mass Transf. 2012, 55, 5133–5147. [CrossRef] 21. Summers, E.K.; Arafat, H.A.; Lienhard, V.J.H. Energy efficiency comparison of single-stage membrane distillation (MD) desalina- tion cycles in different configurations. Desalination 2012, 290, 54–66. [CrossRef] 22. McGovern, R.K.; Thiel, G.P.; Narayan, G.P.; Zubair, S.M.; Lienhard, V.J.H. Performance limits of zero and single extraction humidification-dehumidification desalination systems. Appl. Energy 2013, 102, 1081–1090. [CrossRef] 23. Mistry, K.H.; McGovern, R.K.; Thiel, G.P.; Summers, E.K.; Zubair, S.M.; Lienhard, J.H. Entropy Generation Analysis of Desalination Technologies. Entropy 2011, 13, 1829–1864. [CrossRef] 24. Mistry, K.H.; Lienhard, J.H.; Zubair, S.M. Effect of entropy generation on the performance of humidification- dehumidification desalination cycles. Int. J. Therm. Sci. 2010, 49, 1837–1847. [CrossRef] 25. Sharqawy, M.H.; Lienhard, V.J.H.; Zubair, S.M. On exergy calculations of seawater with applications in desalination systems. Int. J. Therm. Sci. 2011, 50, 187–196. [CrossRef] 26. Sharqawy, M.H.; Antar, M.A.; Zubair, S.M.; Elbashir, A.M. Optimum thermal design of humidification dehumidification desalination systems. Desalination 2014, 349, 10–21. [CrossRef] 27. Khalifa, A.; Ahmad, H.; Antar, M.; Laoui, T.; Khayet, M. Experimental and theoretical investigations on water desalination using direct contact membrane distillation. Desalination 2017, 404, 22–34. [CrossRef] 28. Summers, E.K.; Antar, M.A.; Lienhard, J.H. Design and optimization of an air heating solar collector with integrated phase change material energy storage for use in humidification-dehumidification desalination. Sol. Energy 2012, 86, 3417–3429. [CrossRef] 29. Al-Sulaiman, F.A.; Zubair, M.I.; Atif, M.; Gandhidasan, P.; Al-Dini, S.A.; Antar, M.A. Humidification dehumidification desalination system using parabolic trough solar air collector. Appl. Therm. Eng. 2015, 75, 809–816. [CrossRef] 30. Lawal, D.; Antar, M.; Khalifa, A.; Zubair, S.; Al-Sulaiman, F. Humidification-dehumidification desalination system operated by a heat pump. Energy Convers. Manag. 2018, 161, 128–140. [CrossRef] 31. Gabrielli, P.; Mazzotti, M. Solar-Driven Humidification-Dehumidification Process for Water Desalination Analyzed and Optimized via Equilibrium Theory. Ind. Eng. Chem. Res. 2019, 58, 15244–15261. [CrossRef] 32. Gabra, B.; Rady, M.; Ghany, A.M.A.; Shamseldin, M.A. Modelling and control of solar-driven humidification–dehumidification desalination plant. J. Electr. Syst. Inf. Technol. 2019, 6, 7. [CrossRef] 33. Zubair, M.I.; Al-Sulaiman, F.A.; Antar, M.A.; Al-Dini, S.A.; Ibrahim, N.I. Performance and cost assessment of solar driven humidification dehumidification desalination system. Energy Convers. Manag. 2017, 132, 28–39. [CrossRef] 34. Jamil, M.A.; Shahzad, M.W.; Zubair, S.M. A comprehensive framework for thermoeconomic analysis of desalination systems. Energy Convers. Manag. 2020, 222, 113188. [CrossRef] [PubMed] 35. Xu, H.; Zhao, Y.; Dai, Y.J. Experimental study on a solar assisted heat pump desalination unit with internal heat recovery based on humidification-dehumidification process. Desalination 2019, 452, 247–257. [CrossRef] 36. Tariq, R.; Sheikh, N.A.; Xamán, J.; Bassam, A. An innovative air saturator for humidification-dehumidification desalination application. Appl. Energy 2018, 228, 789–807. [CrossRef] 37. Ahmed, H.A.; Ismail, I.M.; Saleh, W.F.; Ahmed, M. Experimental investigation of humidification-dehumidification desalination system with corrugated packing in the humidifier. Desalination 2017, 410, 19–29. [CrossRef]PDF Image | Humidification Dehumidification Solar Desalination System
PDF Search Title:
Humidification Dehumidification Solar Desalination SystemOriginal File Name Searched:
mathematics-09-00033.pdfDIY PDF Search: Google It | Yahoo | Bing
NFT (Non Fungible Token): Buy our tech, design, development or system NFT and become part of our tech NFT network... More Info
IT XR Project Redstone NFT Available for Sale: NFT for high tech turbine design with one part 3D printed counter-rotating energy turbine. Be part of the future with this NFT. Can be bought and sold but only one design NFT exists. Royalties go to the developer (Infinity) to keep enhancing design and applications... More Info
Infinity Turbine IT XR Project Redstone Design: NFT for sale... NFT for high tech turbine design with one part 3D printed counter-rotating energy turbine. Includes all rights to this turbine design, including license for Fluid Handling Block I and II for the turbine assembly and housing. The NFT includes the blueprints (cad/cam), revenue streams, and all future development of the IT XR Project Redstone... More Info
Infinity Turbine ROT Radial Outflow Turbine 24 Design and Worldwide Rights: NFT for sale... NFT for the ROT 24 energy turbine. Be part of the future with this NFT. This design can be bought and sold but only one design NFT exists. You may manufacture the unit, or get the revenues from its sale from Infinity Turbine. Royalties go to the developer (Infinity) to keep enhancing design and applications... More Info
Infinity Supercritical CO2 10 Liter Extractor Design and Worldwide Rights: The Infinity Supercritical 10L CO2 extractor is for botanical oil extraction, which is rich in terpenes and can produce shelf ready full spectrum oil. With over 5 years of development, this industry leader mature extractor machine has been sold since 2015 and is part of many profitable businesses. The process can also be used for electrowinning, e-waste recycling, and lithium battery recycling, gold mining electronic wastes, precious metals. CO2 can also be used in a reverse fuel cell with nafion to make a gas-to-liquids fuel, such as methanol, ethanol and butanol or ethylene. Supercritical CO2 has also been used for treating nafion to make it more effective catalyst. This NFT is for the purchase of worldwide rights which includes the design. More Info
NFT (Non Fungible Token): Buy our tech, design, development or system NFT and become part of our tech NFT network... More Info
Infinity Turbine Products: Special for this month, any plans are $10,000 for complete Cad/Cam blueprints. License is for one build. Try before you buy a production license. May pay by Bitcoin or other Crypto. Products Page... More Info
CONTACT TEL: 608-238-6001 Email: greg@infinityturbine.com (Standard Web Page)