Comparison of Nanofiltration with Reverse Osmosis in Reclaiming Tertiary Treated Municipal Wastewater for Irrigation Purposes.

Mhdammar Hafiz,Alaa H Hawari,Ali Altaee,Radwan Alfahel,Mohammad K Hassan

doi:10.3390/membranes11010032

Mhdammar Hafiz, Alaa H Hawari + Show 3 more

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https://doi.org/10.3390/membranes11010032

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Journal: Membranes	Publication Date: Jan 2, 2021
Citations: 31	License type: CC BY 4.0

Affiliation: Qatar University, University of Technology Sydney

Abstract

This study compares the performance of nanofiltration (NF) and reverse osmosis (RO) for the reclamation of ultrafiltered municipal wastewater for irrigation of food crops. RO and NF technologies were evaluated at different applied pressures; the performance of each technology was evaluated in terms of water flux, recovery rate, specific energy consumption and quality of permeate. It was found that the permeate from the reverse osmosis (RO) process complied with Food and Agriculture Organization (FAO) standards at pressures applied between 10 and 18 bar. At an applied pressure of 20 bar, the permeate quality did not comply with irrigation water standards in terms of chloride, sodium and calcium concentration. It was found that nanofiltration process was not suitable for the reclamation of wastewater as the concentration of chloride, sodium and calcium exceeded the allowable limits at all applied pressures. In the reverse osmosis process, the highest recovery rate was 36%, which was achieved at a pressure of 16 bar. The specific energy consumption at this applied pressure was 0.56 kWh/m3. The lowest specific energy of 0.46 kWh/m3 was achieved at an applied pressure of 12 bar with a water recovery rate of 32.7%.

Highlights

Water scarcity is a major challenge that affects food security worldwide, in arid regions
This study aims to compare the performance of nanofiltration and reverse osmosis for the further treatment of ultrafiltered municipal wastewater for the irrigation of food crops
A comparative study was conducted on the reclamation of tertiary treated sewage effluent (TSE) by nanofiltration and reverse osmosis for water reuse in

Summary

Introduction

Water scarcity is a major challenge that affects food security worldwide, in arid regions. The United Nations (UN) estimates that agriculture accounts for 70% of water usage around the world [1]. Municipal treated wastewater could be an economical solution to be used as irrigation water and a source of nutrients [2]. Treated wastewater can improve soil health and reduce fertilizers consumption. Treated wastewater is rich in pathogens, organics, sodium and chloride; it could damage soil. The water quality for irrigation water is mainly characterized in terms of total dissolved salts, pH, and different concentrations of ions and cations (e.g., Na, Cl, NO3 , SO4 , PO4 , K, Ca, and Mg)

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