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Books on the topic 'Reverse osmosis desalination'

Author: Grafiati
Published: 4 June 2021
Last updated: 6 July 2024

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1

Ludwig, Heinz. Reverse Osmosis Seawater Desalination Volume 2. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-81927-9.

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2

Ludwig, Heinz. Reverse Osmosis Seawater Desalination Volume 1. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-81931-6.

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3

Missimer, Thomas M., Burton Jones, and Robert G. Maliva, eds. Intakes and Outfalls for Seawater Reverse-Osmosis Desalination Facilities. Cham: Springer International Publishing, 2015. http://dx.doi.org/10.1007/978-3-319-13203-7.

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4

Peplow, George. Role of trace metals in the desalination of sea water by reverse osmosis. Salford: University of Salford, 1986.

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5

Atia, Adam Ahmed. Technical and Economic Modeling for Sustainable Desalination: Renewable-Powered, Adaptive Reverse Osmosis Desalination with Load Flexibility and Pathways to Zero Liquid Discharge. [New York, N.Y.?]: [publisher not identified], 2021.

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6

Trussell, R. Shane. Reclaimed water desalination technologies: A full-scale performance and cost comparison between electrodialysis reversal and microfiltration/reverse osmosis. Alexandria, VA: WateReuse Research Foundation, 2012.

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7

Ho, G. E. Sola r powered desalination for remote areas: Results of research carried out as MERIWA Project No. E239 at the Institute for Environmental Science at Murdoch University. East Perth, WA: Distributed by MERIWA, 1996.

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8

Ludwig, Heinz. Reverse Osmosis Seawater Desalination. Springer, 2023.

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9

Pretreatment for Reverse Osmosis Desalination. Elsevier Science & Technology Books, 2017.

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10

Hong, Seungkwan, Kiho Park, Jungbin Kim, and Dae Ryook Yang. Seawater Reverse Osmosis (SWRO) Desalination. IWA Publishing, 2021.

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11

Hong, Seungkwan, Kiho Park, Jungbin Kim, and Dae Ryook Yang. Seawater Reverse Osmosis (SWRO) Desalination. IWA Publishing, 2021.

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12

Voutchkov, Nikolay. Pretreatment for Reverse Osmosis Desalination. Elsevier, 2017.

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13

Constructive Engineering of Large Reverse Osmosis Desalination Plants. Chemical Publishing Company, Incorporated, 2015.

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14

Gray, Stephen, and Stewart Burn. Efficient Desalination by Reverse Osmosis: A Guide to RO Practice. IWA Publishing, 2015.

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15

Salinas-Rodríguez, Sergio G., Jan C. Schippers, Gary L. Amy, In S. Kim, and Maria D. Kennedy. Seawater Reverse Osmosis Desalination: Assessment and Pre-treatment of Fouling and Scaling. IWA Publishing, 2021. http://dx.doi.org/10.2166/9781780409863.

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This book can of interest to undergraduate and graduate engineering students and researchers, academics, plant operators, consultants, professionals and practitioners in the water sector. The book is not necessarily intended to be read from cover to cover, but consulted as the need arises. The content of this book deals with: Membrane-based desalinationBasic principles of reverse osmosisFouling and pre-treatmentParticulate foulingOrganic and biological foulingAlgal bloom eventsInorganic foulingScalingProcess designRecent advances and emerging processes This book forms part of the Master of Science curriculum in Water Supply Engineering and of the Master of Science Programme in Water and Sustainable Development at IHE Delft Institute for Water Education. ISBN: 9781780409856 (Hardback) ISBN: 9781780409863 (eBook)
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16

Amy, Gary, Sergio G. Salinas-Rodriguez, I. S. Kim, J. C. Schippers, and Maria D. Kennedy. Seawater Reverse Osmosis Desalination: Assessment and Pre-Treatment of Fouling and Scaling. IWA Publishing, 2020.

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17

Amy, Gary, Sergio G. Salinas-Rodriguez, I. S. Kim, J. C. Schippers, and Maria D. Kennedy. Seawater Reverse Osmosis Desalination: Assessment and Pre-Treatment of Fouling and Scaling. IWA Publishing, 2020.

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18

Maliva, Robert G., Thomas M. Missimer, and Burton Jones. Intakes and Outfalls for Seawater Reverse-Osmosis Desalination Facilities: Innovations and Environmental Impacts. Springer International Publishing AG, 2015.

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19

Maliva, Robert G., Thomas M. Missimer, and Burton Jones. Intakes and Outfalls for Seawater Reverse-Osmosis Desalination Facilities: Innovations and Environmental Impacts. Springer, 2016.

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20

Maliva, Robert G., Thomas M. Missimer, and Burton Jones. Intakes and Outfalls for Seawater Reverse-Osmosis Desalination Facilities: Innovations and Environmental Impacts. Springer, 2015.

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21

The Guidebook to Membrane Desalination Technology : Reverse Osmosis, Nanofiltration and Hybrid Systems Process, Design, Applications and Economics. Balaban Publishers, 2007.

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22

Ludwig, Heinz. Reverse Osmosis Seawater Desalination Volume 1: Planning, Process Design and Engineering - a Manual for Study and Practice. Springer International Publishing AG, 2022.

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23

Ludwig, Heinz. Reverse Osmosis Seawater Desalination Volume 2: Planning, Process Design and Engineering - a Manual for Study and Practice. Springer International Publishing AG, 2022.

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24

Balaban, Miriam. Desalination and Water re Use: Proceedings of the Twelfth International Symposium : Seawater Reverse Osmosis Solar Processes Pretreatment (Instituti). Hemisphere Pub, 1991.

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25

Salinas-Rodríguez, Sergio G., Juan Arévalo, Juan Manuel Ortiz, Eduard Borràs-Camps, Victor Monsalvo-Garcia, Maria D. Kennedy, and Abraham Esteve-Núñez, eds. Microbial Desalination Cells for Low Energy Drinking Water. IWA Publishing, 2021. http://dx.doi.org/10.2166/9781789062120.

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The world's largest demonstrator of a revolutionary energy system in desalination for drinking water production is in operation. MIDES uses Microbial Desalination Cells (MDC) in a pre-treatment step for reverse osmosis (RO), for simultaneous saline stream desalination and wastewater treatment. MDCs are based on bio-electro-chemical technology, in which biological wastewater treatment can be coupled to the desalination of a saline stream using ion exchange membranes without external energy input. MDCs simultaneously treat wastewater and perform desalination using the energy contained in the wastewater. In fact, an MDC can produce around 1.8 kWh of bioelectricity from the energy contained in 1 m3 of wastewater. Compared to traditional RO, more than 3 kWh/m3 of electrical energy is saved. With this novel technology, two low-quality water streams (saline stream, wastewater) are transformed into two high-quality streams (desalinated water, treated wastewater) suitable for further uses. An exhaustive scaling-up process was carried out in which all MIDES partners worked together on nanostructured electrodes, antifouling membranes, electrochemical reactor design and optimization, life cycle assessment, microbial electrochemistry and physiology expertise, and process engineering and control. The roadmap of the lab-MDC upscaling goes through the assembly of a pre-pilot MDC, towards the development of the demonstrator of the MDC technology (patented). Nominal desalination rate between 4-11 Lm-2h-1 is reached with a current efficiency of 40 %. After the scalability success, two MDC pilot plants were designed and constructed consisting of one stack of 15 MDC pilot units with a 0.4 m2 electrode area per unit. This book presents the information generated throughout the EU funded MIDES project and includes the latest developments related to desalination of sea water and brackish water by applying microbial desalination cells. ISBN: 9781789062113 (Paperback) ISBN: 9781789062120 (eBook)
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26

Lonsdale, H. Reverse Osmosis Membrane Research: Based on the Symposium on Polymers for Desalination Held at the 162nd National Meeting of the American Chemical Society in Washington, D. C. , September 1971. Springer London, Limited, 2012.

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