1. IntroductionMembrane processes i

1. Introduction
Membrane processes including reverse osmosis (RO) have been widely adopted for water treatment and reuse. The global market for RO continues to grow and is predicted to reach $8.1 billion by 2018 (Cumming, 2014) as RO is increasingly deployed in water treatment plants, quickly replacing conventional softening processes that use lime and soda ash. In particular, RO uses pressured membranes for treatment and desalination of brackish water, producing high-quality water. However, as with other membrane processes (i.e., nanofiltration, ultrafiltration, microfiltration), the challenge of RO is management of the concentrate generated from the filtration processes. Untreated or improperly managed concentrate can result in adverse environmental effects, due to high salinity, nutrients (phosphorus, nitrogen), organic contaminants including emerging contaminants, and trace amounts of inorganics.

Cost-effective treatment and management strategies for concentrate are still in their infancy. While review articles have focused on traditional RO treatment methods or recent advances in RO technology (Pérez-González et al., 2012, Malaeb and Ayoub, 2011 and Fujioka et al., 2012), there are few studies addressing the characteristics of contaminants or treatment options for minimizing or removing contaminants of concern. Yet contaminants in concentrate can impact ecosystems and water quality in areas where the concentrate is discharged. Given that the characteristics of emerging organic contaminants significantly affect the efficiency of water treatment methods, and given the potent toxicity and persistence of such contaminants, innovative and cost-effective treatment technologies are needed.

This review aims to provide (i) an overview of emerging contaminants, (ii) strategies for minimizing and treating concentrate from RO processes with the use of integrated water treatment processes, (iii) description of treatment technologies specifically targeting emerging contaminants of concern in concentrate, (iv) proposals for treatment options based on literature reviewed, and (v) discussion of future research needs.