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Books on the topic 'Membrane treatments'

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Published: 20 July 2024

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1

Michelle, Chapman-Wilbert, and Environmental Resources Team (U.S.). Water Treatment Engineering and Research Group., eds. Desalting and water treatment membrane manual: A guide to membranes for municipal water treatment. 2nd ed. Denver, Colo: U.S. Dept. of Interior, Bureau of Reclamation, Technical Service Center, Water Treatment Engineering and Research, 1998.

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2

Peinemann, K. V. Membranes for water treatment. Weinheim: Wiley-VCH, 2010.

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3

Kislik, Vladimir S. Liquid membranes: Principles and applications in chemical separations and wastewater treatment. Amsterdam: Elsevier Science, 2009.

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4

Foundation, AWWA Research, Lyonnaise des eaux-Dumez (Firm), and South Africa. Water Research Commission., eds. Water treatment membrane processes. New York: McGraw-Hill, 1996.

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5

Shah, Maulin P. Membrane and Membrane-Based Processes for Wastewater Treatment. Boca Raton: CRC Press, 2023. http://dx.doi.org/10.1201/9781003165019.

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6

Professor, Stephenson Tom, ed. Membrane bioreactors for wastewater treatment. London: IWA, 2000.

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7

Pierre, Aimar, Aptel Philippe, European Society of Membrane Science and Technology., and Euromembrane 92 (1992 : Paris), eds. Membrane processes: Water treatment-pervaporation. Nancy: Groupe françaisede génie des procédés, 1992.

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8

J, Duranceau Steven, and American Water Works Association, eds. Membrane practices for water treatment. Denver, CO: American Water Works Association, 2001.

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9

Han, Xiaoyun. Di wen sheng wu mo ji qi wei sheng wu te xing de yan jiu. 8th ed. Ha'erbin Shi: Heilongjiang da xue chu ban she, 2009.

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10

Hillis, Peter, ed. Membrane Technology in Water and Wastewater Treatment. Cambridge: Royal Society of Chemistry, 2007. http://dx.doi.org/10.1039/9781847551351.

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11

Caetano, Ana, Maria Norberta Pinho, Enrico Drioli, and Herbert Muntau, eds. Membrane Technology: Applications to Industrial Wastewater Treatment. Dordrecht: Springer Netherlands, 1995. http://dx.doi.org/10.1007/978-94-011-0211-7.

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12

Ana, Caetano, ed. Membrane technology: Applications to industrial wastewater treatment. Dordrecht: Kluwer Academic Publishers, 1995.

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13

Brown, Jess. Integrating membrane treatment in large water utilities. Denver, Colo: Awwa Research Foundation, 2004.

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14

Visvanathan, C. Hand pump -driven, membrane-based water treatment. Norwich, N.Y.]: Knovel, 2011.

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15

Nadda, Ashok Kumar, Priya Banerjee, Swati Sharma, and Phuong Nguyen-Tri, eds. Membranes for Water Treatment and Remediation. Singapore: Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-19-9176-9.

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16

De, Sirshendu. Treatment of tannery effluents by membrane separation technology. New York: Nova Science Publishers, 2009.

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17

Figoli, Alberto, and Alessandra Criscuoli, eds. Sustainable Membrane Technology for Water and Wastewater Treatment. Singapore: Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-5623-9.

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18

De, Sirshendu. Treatment of tannery effluents by membrane separation technology. Hauppauge, N.Y: Nova Science Publishers, 2009.

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19

Selvadurai, David, and Georgios Oikonomou. Tympanic membrane perforations. Edited by John Phillips and Sally Erskine. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780198834281.003.0005.

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This chapter discusses Macfadyen, Acuin, and Gamble’s paper on systemic antibiotics versus topical treatments for chronically discharging ears with underlying eardrum perforations including the design of the study, (including outcome measures, results, conclusions, and a critique).
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20

Advances in Wastewater Treatment I. Materials Research Forum LLC, 2021. http://dx.doi.org/10.21741/9781644901144.

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The book presents new materials and methods for waste water treatments; including advanced oxidation processes, membrane technologies, detection and removal of heavy metals and organic compounds, and the use of nanomaterials, low cost adsorbents and bio flocculants.
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21

Advances in Wastewater Treatment I. Materials Research Forum LLC, 2021. http://dx.doi.org/10.21741/9781644901151.

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The book presents new materials and methods for waste water treatments; including advanced oxidation processes, membrane technologies, detection and removal of heavy metals and organic compounds, and the use of nanomaterials, low cost adsorbents and bio flocculants.
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22

Slimp, Jefferson C. Neurophysiology of Multiple Sclerosis. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780199341016.003.0003.

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Any discussion of the pathomechanisms and treatments of MS benefits from an understanding of the physiology of the neuronal membrane and the action potential. Neurons and glia, are important for signal propagation, synaptic function, and neural development. The neuronal cell membrane, maintains different ionic environments inside and outside the cell, separating charge across the membrane and facilitating electrical excitability. Ion channels allow flow of sodium, potassium, and calcium ions across the membrane at selected times. At rest, potassium ion efflux across the membrane establishes the nerve membrane resting potential. When activated by a voltage change to threshold, sodium influx generates an action potential, or a sudden alteration in membrane potentials, that can be conducted along an axon. The myelin sheaths around an axon, increase the speed of conduction and conserve energy. The pathology of MS disrupts the myelin structures, disturbs conduction, and leads to neurodegeneration. Ion channels have been the target of investigation for both restoration of conduction and neuroprotection.
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23

Desalting and water treatment membrane manual: A guide to membranes for municipal water treatment. Denver, Colo: Applied Sciences Branch, Research and Laboratory Services Division, Denver Office, 1993.

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24

Basile, A., A. Cassano, and N. K. Rastogi. Advances in Membrane Technologies for Water Treatment: Materials, Processes and Applications. Elsevier Science & Technology, 2015.

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25

Harriman wastewater treatment facility membrane bioreactor pilot study: Final report. Albany, N.Y: New York state Energy Research and Development Authority, 2006.

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26

Shah, Maulin P. Membrane and Membrane-Based Processes for Wastewater Treatment. Taylor & Francis Group, 2023.

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27

Shah, Maulin P. Membrane and Membrane-Based Processes for Wastewater Treatment. Taylor & Francis Group, 2023.

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28

Shah, Maulin P. Membrane and Membrane-Based Processes for Wastewater Treatment. Taylor & Francis Group, 2023.

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29

Shah, Maulin P. Membrane and Membrane-Based Processes for Wastewater Treatment. Taylor & Francis Group, 2023.

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30

Barbieri, Giuseppe, Enrico Drioli, Eric Favre, Laurie Peter, and Pluton Pullumbi. Membrane Engineering for the Treatment of Gases : Volume 1: Gas-separation Problems with Membranes. Royal Society of Chemistry, The, 2011.

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31

Drioli, Enrico, Adele Brunetti, Karel Friess, Maurizio Fermeglia, and Fan Yiqun. Membrane Engineering for the Treatment of Gases : Volume 1: Gas-Separation Issues with Membranes. Royal Society of Chemistry, The, 2017.

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32

Locatelli, Francesco, Celestina Manzoni, Giuseppe Pontoriero, Vincenzo La Milia, and Salvatore Di Filippo. Haemofiltration and haemodiafiltration. Edited by Jonathan Himmelfarb. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780199592548.003.0260_update_001.

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Many observational studies have consistently shown that high-flux haemodialysis (hf-HD) has positive effects on the survival and morbidity of uraemic patients when compared with low-flux haemodialysis, and mainly considering the results of Membrane Permeability Outcome (MPO) studies there is evidence favouring high-flux treatments. A further improvement in convective treatments is represented by the on-line modality. On-line preparation from fresh dialysate by a cold-sterilizing filtration process is a cost-effective method of providing large volumes of infusion solution. Randomized, controlled, large-sized trials with long follow-up in haemofiltration (HF) are unfortunately lacking, possibly suggesting the difficulties in performing these trials, mainly in providing the same urea Kt/V considered adequate in HD. On-line haemodiafiltration (HDF) is considered the most efficient technique of using high-flux membranes, and clearances of small solutes like urea are higher in HDF than in HF and of middle solutes like β‎‎‎2-microglobulin are higher than in hf-HD. Thus HDF, as a strategy based on simultaneous diffusive and convective transport, may combine the beneficial effects of diffusive standard HD with the possible advantages of convective HF. Five large, randomized controlled trials just concluded are inconclusive in definitively clarifying the impact of on-line HDF on chronic kidney disease stage 5 patient outcomes.
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33

Hillis, P. Membrane Technology in Water and Wastewater Treatment (Royal Society of Chemistry Special Publication). Royal Society of Chemistry, 2000.

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34

Membrane Technologies for Water Treatment. CRC Press, 2016. http://dx.doi.org/10.1201/b19227.

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35

Membrane Bioreactor for Wastewater Treatment. Bookboon.com, 2013.

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36

Membrane Bioreactor for Wastewater Treatment. Bookboon, 2013.

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37

Judd, Simon, Bruce Jefferson, Thomas Stephenson, and K. Brindle. Membrane Bioreactors for Wastewater Treatment. IWA Publishing, 2000.

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38

Membrane Bioreactor for Wastewater Treatment. Bookboon.com, 2013.

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39

Federation, Water Environment. Membrane Systems for Wastewater Treatment. McGraw-Hill Professional, 2005.

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40

Federation, Water Environment. Membrane Systems for Wastewater Treatment. McGraw-Hill Professional, 2005.

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41

Membrane Bioreactor for Wastewater Treatment. Bookboon.com, 2013.

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42

Membrane Bioreactor for Wastewater Treatment. Bookboon.com, 2013.

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43

Farrokhpay, Saeed. Membrane Science for Water Treatment. Arcler Education Inc, 2021.

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44

Nunes, Suzana Pereira, and Klaus-Viktor Peinemann. Membranes for Water Treatment. Wiley & Sons, Incorporated, John, 2010.

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45

Nunes, Suzana Pereira, and Klaus-Viktor Peinemann. Membranes for Water Treatment. Wiley & Sons, Limited, John, 2010.

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46

Barbieri, Giuseppe, Enrico Drioli, Fausto Gallucci, Pushpinder Puri, and Donald Paul. Membrane Engineering for the Treatment of Gases Vol. 1 : Volume 1: Gas-Separation Problems with Membranes. Royal Society of Chemistry, The, 2011.

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47

Reardon, Roderick. Membrane Treatment of Secondary Effluent for Subsequent Use: Phase 2- Pilot Plant Comparisons of Tests of Mf and Uf for Pretreatment of High-pressure Membranes: ... Treatment and Reuse 01-cts-6a (Werf Report). Intl Water Assn, 2008.

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48

Matsuura, Takeshi, and A. F. Ismail. Membrane Technology for Water and Wastewater Treatment, Energy and Environment. Taylor & Francis Group, 2016.

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49

Matsuura, Takeshi, and A. F. Ismail. Membrane Technology for Water and Wastewater Treatment, Energy and Environment. Taylor & Francis Group, 2016.

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50

Matsuura, Takeshi, and A. F. Ismail. Membrane Technology for Water and Wastewater Treatment, Energy and Environment. Taylor & Francis Group, 2016.

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