Presentations by New Mexico State University
Matches: 7
Brackish Water Resources of New Mexico
Surface and ground water resources of New Mexico. Discussion of requirements, cost, water rights, treatment technologies and concentrate management....
Inland Brackish Water Desalination
Inland brackish water desalination is offered as a means of creating ?new? water resources in acid regions. However, paper concedes treatment cost remains high and is often exacerbated by cost of concentrate disposal. Paper details the use of high-recovery electro-dialysis reversal (EDR) to reduce treatment costs by minimizing volume of concentrate...
High-Recovery Electrodialysis Reversal for the Desalination of Inland Brackish Waters
Due to prohibitively high cost of inland desalination, there has been a surge of interest into emerging technologies and techniques for recovery enhancement and concentration minimization. EDR has been identified for its potential as a high-recovery desalination technology. This research hypothesis was that EDR could effectively treat brackish grou...
Comparison between performance of reverse osmosis and nano-filtration membranes in the process of desalination of brackish water
Comparison of results using either nanofiltration or brackish elements on a brackish groundwater source. This was a bench scale study....
Selective Removal of Sodium And Chloride? Mono-Valent Selective Ion Exchange Membrane for Desalination and Reuse Enhancement
This paper will provide a synopsis on technologies that are capable of selectively removing sodium and chloride ions along with experiments to examine newly development monovalent salt selective membrane elements....
Ion Selectivity of Electrodialysis for Desalination and Reuse Enhancement
Selective separation of mono- and multi-valent ions has important applications in water reuse, desalination, and salt production, by adjusting ion composition to meet product water quality requirements. In this study, we developed an innovative monovalent permselective cation-exchange membrane (CEM) CR671 by modifying normal grade membrane CR67 wit...
Hybrid Algal-Osmosis Membrane System for Resource Recovery and ZLD Applied to Municipal Wastewater
An algal wastewater treatment process was combined with a hybrid forward osmosis (FO) and reverse osmosis (RO) membrane system to treat urban wastewater, harvest algae for recovering energy and nutrients, and produce potable-quality water from primary settled wastewater. The technical viability of the coupled algal-membrane system was demonstrated ...