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Author: Hossam AbdelFattah Hussein El Zayat
Publisher:
ISBN:
Category : Osmosis
Languages : en
Pages : 176
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Book Description
Abstract: Due to the growing pressure on the conventional water resources and the increasing population in Egypt, attention has been given to increase the share of seawater desalination in total water resources mix. The most common desalination technology in Egypt is the reverse osmosis (RO) desalination which, beside the production of fresh water, results in large amounts of high salinity brine that is normally being disposed of into the sea. Since the generated brine usually contains traces of chemicals, which have been used for the pretreatment of water, along with a wide range of heavy metals resulting from the corrosion of the pipes, the discharge of the brine into the sea represents a serious environmental challenge if not properly managed. In order to reach an improved overall brine management process, a multitude of research work focused on investigating different techniques in that regard so that the impact on the surrounding environment becomes minimal. A number of parameters have been identified as the key factors which should be considered to reduce the harmful impacts on the environment. This includes both the volume and the chemical composition of the brine, geographical location and available area of the disposal site as well as the capacity of the desalination plant. The volume reduction of the brine could be achieved using different techniques; one of which is the fertilizer drawn forward osmosis (FDFO) process. In that process, RO brine is introduced as the feed solution (FS) while a concentrated fertilizer is used as the draw solution (DS). The process results in further extraction of water from the FS which means a reduction in its volume. The final diluted DS can be used for fertilized irrigation or “Fertigation”; an application that can fill a gap in a country like Egypt with the majority of its water consumption is dedicated for agricultural use. In earlier studies, several fertilizer solutions have been tested as potential DS’s to identify the best performing fertilizers with the highest financial feasibility. In this research, an FDFO process was tested, in both bench-scale and pilot-scale investigations, for the volume reduction of a synthetic brine using a locally manufactured industrial-grade ammonium sulphate (NH4)2SO4 fertilizer as DS and a commercial FO membrane. This work investigated the performance of the tested fertilizer in terms of the resulting water flux at the highest concentration possible of the DS with a fixed concentration of the FS which simulated the brine generated by the RO desalination plants. The aim of the investigation was to perform a techno-economic assessment of the feasibility of using the FDFO process with ammonium sulphate fertilizer as DS to reduce the volume of the brine by extracting water to dilute the DS for a less environmentally challenging management of the brine. In addition to the advantage of reducing the volume of the brine, the resulting diluted DS will be further mixed with the addition of fresh water from the RO plant permeate to reduce its concentration of nutrients to the acceptable levels and produce fertilized water that can be used for fertigation. The bench-scale investigation showed that the process derived an average water flux of 8.09 l/h/m2 which resulted in a volume reduction, and hence a further concentration, of the brine by around 12% using an industrial-grade ammonium sulphate fertilizer as DS which was also diluted by the extracted water by almost 24%. While the pilot-scale investigation showed lower flux, the volume reduction results were consistent with those obtained from the bench-scale investigation. It was concluded that the achieved volume reduction of 12.7% using the proposed process, which requires low energy levels and produces fertilized water for fertigation, was found comparable, in terms of the overall economics of the process, to the recovery rate from brine using an RO process reported in a recent study. Considering the potential applications of the produced fertilized water, these results can be translated into an economically viable solution for the volume reduction of the brine and the production of water for fertigation compared to other reviewed approaches.
Author: Hossam AbdelFattah Hussein El Zayat
Publisher:
ISBN:
Category : Osmosis
Languages : en
Pages : 176
Get Book Here
Book Description
Abstract: Due to the growing pressure on the conventional water resources and the increasing population in Egypt, attention has been given to increase the share of seawater desalination in total water resources mix. The most common desalination technology in Egypt is the reverse osmosis (RO) desalination which, beside the production of fresh water, results in large amounts of high salinity brine that is normally being disposed of into the sea. Since the generated brine usually contains traces of chemicals, which have been used for the pretreatment of water, along with a wide range of heavy metals resulting from the corrosion of the pipes, the discharge of the brine into the sea represents a serious environmental challenge if not properly managed. In order to reach an improved overall brine management process, a multitude of research work focused on investigating different techniques in that regard so that the impact on the surrounding environment becomes minimal. A number of parameters have been identified as the key factors which should be considered to reduce the harmful impacts on the environment. This includes both the volume and the chemical composition of the brine, geographical location and available area of the disposal site as well as the capacity of the desalination plant. The volume reduction of the brine could be achieved using different techniques; one of which is the fertilizer drawn forward osmosis (FDFO) process. In that process, RO brine is introduced as the feed solution (FS) while a concentrated fertilizer is used as the draw solution (DS). The process results in further extraction of water from the FS which means a reduction in its volume. The final diluted DS can be used for fertilized irrigation or “Fertigation”; an application that can fill a gap in a country like Egypt with the majority of its water consumption is dedicated for agricultural use. In earlier studies, several fertilizer solutions have been tested as potential DS’s to identify the best performing fertilizers with the highest financial feasibility. In this research, an FDFO process was tested, in both bench-scale and pilot-scale investigations, for the volume reduction of a synthetic brine using a locally manufactured industrial-grade ammonium sulphate (NH4)2SO4 fertilizer as DS and a commercial FO membrane. This work investigated the performance of the tested fertilizer in terms of the resulting water flux at the highest concentration possible of the DS with a fixed concentration of the FS which simulated the brine generated by the RO desalination plants. The aim of the investigation was to perform a techno-economic assessment of the feasibility of using the FDFO process with ammonium sulphate fertilizer as DS to reduce the volume of the brine by extracting water to dilute the DS for a less environmentally challenging management of the brine. In addition to the advantage of reducing the volume of the brine, the resulting diluted DS will be further mixed with the addition of fresh water from the RO plant permeate to reduce its concentration of nutrients to the acceptable levels and produce fertilized water that can be used for fertigation. The bench-scale investigation showed that the process derived an average water flux of 8.09 l/h/m2 which resulted in a volume reduction, and hence a further concentration, of the brine by around 12% using an industrial-grade ammonium sulphate fertilizer as DS which was also diluted by the extracted water by almost 24%. While the pilot-scale investigation showed lower flux, the volume reduction results were consistent with those obtained from the bench-scale investigation. It was concluded that the achieved volume reduction of 12.7% using the proposed process, which requires low energy levels and produces fertilized water for fertigation, was found comparable, in terms of the overall economics of the process, to the recovery rate from brine using an RO process reported in a recent study. Considering the potential applications of the produced fertilized water, these results can be translated into an economically viable solution for the volume reduction of the brine and the production of water for fertigation compared to other reviewed approaches.
Author: Ryan Yeo Whye Seong
Publisher:
ISBN:
Category : Membranes
Languages : en
Pages : 66
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Book Description
Forward osmosis is a process that depends on the concentration gradient and also osmotic potential to treat water which is currently, applicable in many industries. The main factor which affects the entire process of forward osmosis is the draw solution as draw solution acts as the driving force which drives water to past through semi-permeable membrane by means of concentration gradient. This research focuses on the characterization of draw solution in order to provide the optimum effect in treating river water in Malaysia. Apart from that, this research used synthesized river water which consists of 15mg/L of humic acid to replace river water as feed solution. This research was done so as to fill the inadequate amount of research done on forward osmosis where river water was used as feed solution. This research was conducted based on two parameters which will impact the water flux and performance of draw solution namely, concentration of draw solution and also osmotic pressure of draw solution. Thus, 4 different draw solutions made up of inorganic salt, fertilizers and organic salts were tested based on 5 different concentrations. This research also measures the humic acid rejection for each draw solution by using UV-vis spectrometer. Besides, reverse salt diffusion caused by different draw solution was also tested in terms of conductivity to determine the best performing draw solution. This research was conducted by using polyamide coated ultrafiltration membrane to separate the feed and draw solution and the permeation module was constructed as the preliminary laboratory work. Based on the results obtained, increase in molarity of draw solution is proportional to the increase in flux of water. The water flux obtained by using related formula showed the highest figure with calcium nitrate at 2.7 x 10^-4 m3/m2.s at 1mol/L, whereas the lowest flux obtained was by fructose with the reading of 2.529 x 10^-05 m3/m2.s. Besides that, calculation shows that the increase in draw solution concentration causes a decrease in humic acid rejection. However, the data recorded showed that every draw solutions at concentrations of 0.1mol/L to 1mol/L have good humic acid rejection at approximately 100%. On the other hand, sodium chloride showed higher reverse salt diffusion than calcium nitrate and the value of reverse salt diffusion increases as the molarity increases. Based on the discussions, it is found that this research showed calcium nitrate at 1mol/L as the best performing draw solution in treating river water. This research can further assist future research on forward osmosis of treating river water by narrowing down the type of draw solution that can provide best efficiency in treating river water and also show the category of draw solution which provides best efficiency.
Author:
Publisher:
ISBN:
Category : Reverse osmosis
Languages : en
Pages : 16
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Book Description
Author: Hongbo Du
Publisher: BoD – Books on Demand
ISBN: 9535139215
Category : Technology & Engineering
Languages : en
Pages : 283
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Book Description
Osmotically driven membrane processes (ODMPs) including forward osmosis (FO) and pressure-retarded osmosis (PRO) have attracted increasing attention in fields such as water treatment, desalination, power generation, and life science. In contrast to pressure-driven membrane processes, e.g., reverse osmosis, which typically employs applied high pressure as driving force, ODMPs take advantages of naturally generated osmotic pressure as the sole source of driving force. In light of this, ODMPs possess many advantages over pressure-driven membrane processes. The advantages include low energy consumption, ease of equipment maintenance, low capital investment, high salt rejection, and high water flux. In the past decade, over 300 academic papers on ODMPs have been published in a variety of application fields. The number of such publications is still rapidly growing. The ODMPs' approach, fabrications, recent development and applications in wastewater treatment, power generation, seawater desalination, and gas absorption are presented in this book.
Author: William Bailey Russel
Publisher: Cambridge University Press
ISBN: 9780521426008
Category : Mathematics
Languages : en
Pages : 548
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Book Description
This book covers the physical side of colloidal science from the individual forces acting between particles smaller than a micrometer that are suspended in a liquid, through the resulting equilibrium and dynamic properties. A variety of internal forces both attractive and repulsive act in conjunction with Brownian motion and the balance between them all decides the phase behaviour. On top of this various external fields, such as gravity or electromagnetic fields, diffusion and non-Newtonian rheology produce complex effects, each of which is of important scientific and technological interest. The authors aim to impart a sound, quantitative understanding based on fundamental theory and experiments with well-characterised model systems. This broad grasp of the fundamentals lends insight and helps to develop the intuitive sense needed to isolate essential features of the technological problems and design critical experiments. The main prerequisites for understanding the book are basic fluid mechanics, statistical mechanics and electromagnetism, though self contained reviews of each subject are provided at appropriate points. Some facility with differential equations is also necessary. Exercises are included at the end of each chapter, making the work suitable as a textbook for graduate courses in chemical engineering or applied mathematics. It will also be useful as a reference for individuals in academia or industry undertaking research in colloid science.
Author: Rodrigo Valladares Linares
Publisher: IWA Publishing
ISBN: 1780408110
Category : Science
Languages : en
Pages : 400
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Book Description
Forward osmosis (FO) is an emerging membrane technology with a range of possible water treatment applications (desalination and wastewater treatment and recovery). Recent Developments in Forward Osmosis Processes provides an overview of applications, advantages, challenges, costs and current knowledge gaps. Commercial technology, hybrid FO systems for both desalination and water recovery applications have shown to have higher capital cost compared to conventional technologies. Nevertheless, due to the demonstrated lower operational costs of hybrid FO systems, the unit cost for each m3 of fresh water produced with the FO system are lower than conventional desalination/water recovery technologies (i.e. ultrafiltration/RO systems). There are key benefits of using FO hybrid systems compared to RO: • chemical storage and feed systems may be reduced for capital, operational and maintenance cost savings, • reduced process piping costs, • more flexible treatment units, • higher overall sustainability of the desalination process, while producing high quality water.
Author: National Research Council
Publisher: National Academies Press
ISBN: 0309119235
Category : Science
Languages : en
Pages : 313
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Book Description
There has been an exponential increase in desalination capacity both globally and nationally since 1960, fueled in part by growing concern for local water scarcity and made possible to a great extent by a major federal investment for desalination research and development. Traditional sources of supply are increasingly expensive, unavailable, or controversial, but desalination technology offers the potential to substantially reduce water scarcity by converting the almost inexhaustible supply of seawater and the apparently vast quantities of brackish groundwater into new sources of freshwater. Desalination assesses the state of the art in relevant desalination technologies, and factors such as cost and implementation challenges. It also describes reasonable long-term goals for advancing desalination technology, posits recommendations for action and research, estimates the funding necessary to support the proposed research agenda, and identifies appropriate roles for governmental and nongovernmental entities.
Author: Mohammad Hossein Davood Abadi Farahani
Publisher: BoD – Books on Demand
ISBN: 1789847389
Category : Technology & Engineering
Languages : en
Pages : 132
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Book Description
Undoubtedly, drinking water of an acceptable quality has become a scarce commodity. Water shortage is becoming a major concern all around the world due to limited freshwater resources as well as the high cost of freshwater transportation from freshwater-rich areas to arid areas. As a result, solutions such as water recycling and desalination of saline or brackish water are being introduced and emerging worldwide as alternative ways of supplying water. Desalination of seawater is known to be one of mankind’s earliest forms of water treatment, and it has become one of the most sustainable alternative solutions to provide freshwater for many communities and industrial sectors. This book aims to cover the challenges and opportunities in desalination processes.
Author: Stewart Burn
Publisher: IWA Publishing
ISBN: 9781780405056
Category : Science
Languages : en
Pages : 0
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Book Description
Early applications of desalination were small-scale plants deploying a range of technologies. However with the technological developments in Reverse Osmosis, most new plants use this technology because it has a proven history of use and low energy and capital costs compared with other available desalination technologies. This has led to the recent trend for larger seawater desalination plants in an effort to further reduce costs, and 1000 MLD seawater desalination plants are projected by 2020. Efficient Desalination by Reverse Osmosis recognises that desalination by reverse osmosis has progressed significantly over the last decades and provides an up to date review of the state of the art for the reverse osmosis process. It covers issues that arise from desalination operations, environmental issues and ideas for research that will bring further improvements in this technology. Efficient Desalination by Reverse Osmosis provides a complete guide to best practice from pre-treatment through to project delivery. Editors: Stewart Burn, Visiting Scientist, CSIRO Manufacturing. Adjunct Professor, Institute of Sustainability and Innovation, Victoria University. Adjunct Professor, Department of Civil, Environmental and Chemical Engineering, RMIT University. Stephen Gray, Director, Institute of Sustainability and Innovation, Victoria University.
Author: Muharrem Ince
Publisher: BoD – Books on Demand
ISBN: 1839689110
Category : Technology & Engineering
Languages : en
Pages : 136
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Book Description
Osmotically Driven Membrane Processes provides an overview of membrane systems and separation processes, recent trends in membranes and membrane processes, and advancements in osmotically driven membrane systems. It focuses on recent advances in monitoring and controlling wastewater using membrane technologies. It explains and clarifies important research studies as well as discusses advancements in the field of organic-inorganic pollution.
