An Innovative Design of an Integrated MED-TVC and Reverse Osmosis System for Seawater Desalination: Process Explanation and Performance Evaluation

Omer Mohamed Abubaker Al-Hotmani,Yakubu Mandafiya John,Mudhar Abdul Alwahab Al-Obaidi,Raj Patel,Iqbal Mohammed Mujtaba

doi:10.3390/pr8050607

Omer Mohamed Abubaker Al-Hotmani, Yakubu Mandafiya John + Show 3 more

Open Access

https://doi.org/10.3390/pr8050607

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Journal: Processes	Publication Date: May 20, 2020
Citations: 11	License type: CC BY 4.0

Affiliation: University of Bradford, Middle Technical University

Abstract

In recent times two or more desalination processes have been combined to form integrated systems that have been widely used to resolve the limitations of individual processes as well as producing high performance systems. In this regard, a simple integrated system of the Multi Effect Distillation (MED)/Thermal Vapour Compression (TVC) and Permeate Reprocessing Reverse Osmosis (PRRO) process was developed by the same authors and confirmed its validity after a comparison study against other developed configurations. However, this design has a considerable amount of retentate flowrate and low productivity. To resolve this issue, two novel designs of MED and double reverse osmosis (RO) processes including Permeate and Retentate Reprocessing designs (PRRP and RRRO) are developed and modelled in this paper. To systematically assess the consistency of the presented designs, the performance indicators of the novel designs are compared against previous simple designs of MED and PRRO processes at a specified set of operating conditions. Results show the superiority of the integrated MED and double permeate reprocessing design. This has specifically achieved both economic and environmental advantages where total productivity is increased by around 9% and total retentate flowrate (disposed to water bodies) is reduced by 5% with a marginally reduced energy consumption.

Highlights

The design of desalination technologies such as thermal and membrane processes should be periodically improved to meet the increased demand for drinking water as a consequence of an increase in population
This study proposes two new integrated systems comprising of MED_TVC and reverse osmosis (RO) process where each system is characterised by double RO processes connected to MED_TVC
This study presents the development of a novel design of a MED_TVC thermal desalination system and RO desalination processes

Summary

Introduction

The design of desalination technologies such as thermal and membrane processes should be periodically improved to meet the increased demand for drinking water as a consequence of an increase in population. 2. Description of Novel Designs of Integrated Systems of MED_TVC and Double RO Processes of PPRO and RRRO The performance keys of the integrated system under focus include the productivity, freshwater salinity, rejected flowrate and its salinity, total water recovery measured by the division of total production of freshwater and feed flowrate fed to both MED and RO processes and the total specific energy consumption based on one cubic meter of produced freshwater.

Results

Conclusion