Energy Efficient Desalination Of Brackish Groundwater By Nanofiltration Reverse Osmosis Hybrid PDF Download

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Energy-efficient Desalination of Brackish Groundwater by Nanofiltration/reverse Osmosis Hybrid

Energy-efficient Desalination of Brackish Groundwater by Nanofiltration/reverse Osmosis Hybrid
Author: Atefe Hadi
Publisher:
Total Pages: 244
Release: 2015
Genre: Nanofiltration
ISBN:
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Desalination can produce freshwater from seawater and brackish water, alleviating the critical issue of freshwater shortages. There are multiple desalination technologies, but membrane-based technologies are used most frequently because of their low cost, low energy comsumption, compactness, and short installation period. Among the membrane-based desalination technologies, reverse osmosis (RO) is most prevalent because of its ability to treat many types of feed water, ease of maintenance, and production of high-quality water. However, compared to some membrane technologies, RO suffers from high energy comsumption, inadequate water recovery, and membrane fouling. As an alternative to RO systems, nanofiltration (NF) membranes have been developed for desalinating moderately or slightly saline water sources such as brackish groundwater. NF has a lower ion rejection rate than RO, but is more energy efficient because of this and is able to operate at higher flux and lower pressures. Despite these known advantages and disadvantages, it has been difficult to directly compare the performances of RO and NF technologies because RO has a higher ion rejection rate while NF has a higher energy efficiency. This impedes the selection of optimal desalination systems for given conditions. To solve this problem, the present study uses the criteria minimized specific energy consumption and acceptable product water quality to compare the performances of RO, NF, and a hybrid NF/RO system in the treatment of brackish groundwater. Using resources at the Brackish Groundwater National Desalination Research Facility (BGNDRF), optimum operating conditions were obtained for all three systems by varying the parameters of feed flow rate, feed concentration, and system recovery. To prevent membrane fouling, appropriate pretreatment methods were applied in all experiments. Results showed that, based on the calculated specific energy consumption and World Health Organization standards for potable water, NF, hybrid NF/RO, and RO systems were best for desalinating low, moderate, and high salinity feed waters, respectively.

Sustainable Desalination and Water Reuse

Sustainable Desalination and Water Reuse
Author: Eric M.V. Hoek
Publisher: Springer Nature
Total Pages: 194
Release: 2022-05-31
Genre: Technology & Engineering
ISBN: 3031795083
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Over the past half century, reverse osmosis (RO) has grown from a nascent niche technology into the most versatile and effective desalination and advanced water treatment technology available. However, there remain certain challenges for improving the cost-effectiveness and sustainability of RO desalination plants in various applications. In low-pressure RO applications, both capital (CAPEX) and operating (OPEX) costs are largely influenced by product water recovery, which is typically limited by mineral scale formation. In seawater applications, recovery tends to be limited by the salinity limits on brine discharge and cost is dominated by energy demand. The combination of water scarcity and sustainability imperatives, in many locations, is driving system designs towards minimal and zero liquid discharge (M/ZLD) for inland brackish water, municipal and industrial wastewaters, and even seawater desalination. Herein, we review the basic principles of RO processes, the state-of-the-art for RO membranes, modules and system designs as well as methods for concentrating and treating brines to achieve MLD/ZLD, resource recovery and renewable energy powered desalination systems. Throughout, we provide examples of installations employing conventional and some novel approaches towards high recovery RO in a range of applications from brackish groundwater desalination to oil and gas produced water treatment and seawater desalination.

Hybrid Inter-stage Design of Brackish Water Reverse Osmosis to Improve Efficiency of Hydraulic Energy

Hybrid Inter-stage Design of Brackish Water Reverse Osmosis to Improve Efficiency of Hydraulic Energy
Author: Masoud Aghajani
Publisher:
Total Pages: 248
Release: 2015
Genre: Saline water conversion
ISBN:
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Water scarcity and shortage are becoming serious issues for many countries worldwide. These problems inspire new methods of water management and one of common approaches in resource management is increasing production and availability to prevent crisis. Water is not an exception and many sources are considered for this purpose. Water with high concentrations of total dissolved solids (TDS) gradually gained attention of researchers, decision makers and investors. It is mainly thanks to the non-ending seawater source and also saline brackish and surface waters. Reverse Osmosis is the leading technology to desalinate the water and numerous advances have been carried out to more optimize this process. A lot of attention has paid to seawater reverse osmosis and modification and optimization of brackish water reverse osmosis has not been carried out comprehensively. Hybrid membrane inter-stage design (HID) was one of the most recent advancement in seawater reverse osmosis but no report or experimental study has been done on using this novel design for brackish water reverse osmosis. In this study HID design was compared with regular design of brackish water reverse osmosis (BWRO) through experimental work and data collection from a pilot scale reverse osmosis system. Collected data was analyzed through statistical procedures and multiple regression was also carried out on the data to develop predictive models of the system energy consumption. Those models were also used to compare these two different designs of BWRO for recovery rates. Results show that HID design significantly reduces the specific energy consumption of the BWRO system and also at constant energy consumption of the high pressure pump HID designed system can produce more permeate and gives higher recovery rate.

Reverse Osmosis and Nanofiltration, (M46)

Reverse Osmosis and Nanofiltration, (M46)
Author: AWWA Staff
Publisher: American Water Works Association
Total Pages: 240
Release: 2011-01-12
Genre: Drinking water
ISBN: 1613000332
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Reverse Osmosis Process

Reverse Osmosis Process
Author:
Publisher:
Total Pages: 16
Release: 1996
Genre: Reverse osmosis
ISBN:
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A Novel Approach to Seawater Desalination Using Dual-staged Nanofiltration

A Novel Approach to Seawater Desalination Using Dual-staged Nanofiltration
Author:
Publisher: American Water Works Association
Total Pages: 164
Release: 2006
Genre: Nanofiltration
ISBN: 1583214658
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An alternative to desalting seawater by the traditional seawater RO (SWRO) method is a novel dual-staged nanofiltration (NF2) process developed by the Long Beach Water Department (LBWD). With this as a basis, this report investigated The capability of dual-staged nanofiltration for seawater desalination to reduce operational costs was assessed through a research plan divided into four phases: theoretical basis of the system (governing equations, membrane suitability, etc.); operational optimization approaches (pilot tests and use of a predictive model); preliminary strategies for blending desalinated water with existing finished water; and verification of inherent redundancy of the process with viral challenge tests.

Desalination by Reverse Osmosis

Desalination by Reverse Osmosis
Author: Ulrich Merten
Publisher:
Total Pages: 314
Release: 1966
Genre: Saline water conversion
ISBN:
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Membrane Technology and Engineering for Water Purification

Membrane Technology and Engineering for Water Purification
Author: Rajindar Singh
Publisher: Butterworth-Heinemann
Total Pages: 450
Release: 2014-09-25
Genre: Technology & Engineering
ISBN: 0444634096
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Membrane Technology and Engineering for Water Purification, Second Edition is written in a practical style with emphasis on: process description; key unit operations; systems design and costs; plant equipment description; equipment installation; safety and maintenance; process control; plant start-up; and operation and troubleshooting. It is supplemented by case studies and engineering rules-of-thumb. The author is a chemical engineer with extensive experience in the field, and his technical knowledge and practical know-how in the water purification industry are summarized succinctly in this new edition. This book will inform you which membranes to use in water purification and why, where and when to use them. It will help you to troubleshoot and improve performance and provides case studies to assist understanding through real-life examples. Membrane Technology section updated to include forward osmosis, electrodialysis, and diffusion dialysis Hybrid Membrane Systems expanded to cover zero liquid discharge, salt recovery and removal of trace contaminants Includes a new section on plant design, energy, and economics

Nanofiltration, 2 Volume Set

Nanofiltration, 2 Volume Set
Author: Andrea Iris Schäfer
Publisher: John Wiley & Sons
Total Pages: 1267
Release: 2021-08-09
Genre: Science
ISBN: 3527346902
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An updated guide to the growing field of nanofiltration including fundamental principles, important industrial applications as well as novel materials With contributions from an international panel of experts, the revised second edition of Nanofiltration contains a comprehensive overview of this growing field. The book covers the basic principles of nanofiltration including the design and characterizations of nanofiltration membranes. The expert contributors highlight the broad ranges of industrial applications including water treatment, food, pulp and paper, and textiles. The book explores photocatalytic nanofiltration reactors, organic solvent nanofiltration, as well as nanofiltration in metal and acid recovery. In addition, information on the most recent developments in the field are examined including nanofiltration retentate treatment and renewable energy-powered nanofiltration. The authors also consider the future of nanofiltration materials such as carbon- as well as polymer-based materials. This important book: Explores the fast growing field of the membrane process of nanofiltration Examines the rapidly expanding industrial sector's use of membranes for water purification Covers the most important industrial applications with a strong focus on water treatment Contains a section on new membrane materials, including carbon-based and polymer-based materials, as well as information on artificial ion and water channels as biomimetic membranes Written for scientists and engineers in the fields of chemistry, environment, food and materials, the second edition of Nanofiltration provides a comprehensive overview of the field, outlines the principles of the technology, explores the industrial applications, and discusses new materials.