Desalination processes evaluation at common platform: A universal performance ratio (UPR) method

Muhammad Wakil Shahzad*, Muhammad Burhan, Hyun Soo Son, Seung Jin Oh, Kim Choon Ng

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

72 Citations (Scopus)

Abstract

The inevitable escalation in economic development have serious implications on energy and environment nexus. The International Energy Outlook 2016 (IEO2016) predicted that the Non Organization for Economic Cooperation and Development (non-OECD) countries will lead with 71% rise in energy demand in contrast with only 18% in developed countries from 2012 to 2040. In Gulf Cooperation Council (GCC) countries, about 40% of primary energy is consumed for cogeneration based power and desalination plants. The cogeneration based plants are struggling with unfair primary fuel cost apportionment to electricity and desalination. Also, the desalination processes performance evaluated based on derived energy, providing misleading selection of processes. There is a need of (i) appropriate primary fuel cost appointment method for multi-purposed plants and (ii) desalination processes performance evaluation method based on primary energy. As a solution, we proposed exergetic analysis for primary fuel percentage apportionment to all components in the cycle according to the quality of working fluid utilized. The proposed method showed that the gas turbine was under charged by 40%, steam turbine was overcharged by 71% and desalination was overcharged by 350% by conventional energetic apportionment methods. We also proposed a new and most suitable desalination processes performance evaluation method based on primary energy, called universal performance ratio (UPR). Since UPR is based on primary energy, it can be used to evaluate any kind of desalination processes, thermally driven, pressure driven & humidification-dehumidification etc. on common platform. We showed that all desalination processes are operating only at 10–13% of thermodynamic limit (TL) of UPR. For future sustainability, desalination must achieve 25–30% of TL and it is only possible either by hybridization of different processes or by innovative membrane materials.

Original languageEnglish
Pages (from-to)62-67
Number of pages6
JournalApplied Thermal Engineering
Volume134
Early online date31 Jan 2018
DOIs
Publication statusPublished - Apr 2018
Externally publishedYes

Keywords

  • Desalination
  • Exergy analysis
  • Performance ratio
  • Sustainability
  • Universal performance ratio

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