02004nam0 22004333i 450 VIA003714520231121125923.02503036112250303612020021211d1984 ||||0itac50 balatfrebez01i xxxe z01nLiber ordinis Sancti Victoris Parisiensisquem ediderunt Lucas Jocque et Ludovicus MilisTurnholtiTypographi Brepols editores pontificii1984LXXXII, 320 p.26 cm.Corpus Christianorum. Continuatio Mediaevalis61001CFI00784492001 Corpus Christianorum. Continuatio Mediaevalis61001MIL01152592001 Liber ordinis sancti Victoris Parisiensiscurante CETEDOC, Universitas catholica Lovaniensis, Lovanii Novi25521Gilduinus : da sancto VictoreBVEV2684060701068329Jocqué, LucBVEV053109Milis, LudovicusPUVV121304Milis, Ludovicus Jan RobertBVEV258923Milis, LudovicusMilis, Ludo J. R.BVEV258924Milis, LudovicusMilis, Ludo Jan RobertMILV282456Milis, LudovicusMilis, LudoPUVV294474Milis, LudovicusITIT-0120021211IT-RM028 IT-FR0084 IT-RM0151 IT-FR0017 Biblioteca Universitaria AlessandrinaRM028 Biblioteca Del Monumento Nazionale Di MontecassinoFR0084 Biblioteca Istituto Storico Italiano Medio Evo - IRM0151 Biblioteca umanistica Giorgio ApreaFR0017 VIA0037145Biblioteca umanistica Giorgio Aprea 52CC.CM. 61 52FLS0000186165 VMN RS C 2019091220190912 01 25 41 52Liber ordinis Sancti Victoris Parisiensis2552954UNICAS06229nam 2200469 450 991083094220332120230717202249.01-394-22606-31-394-22604-7(MiAaPQ)EBC7265654(Au-PeEL)EBL7265654(EXLCZ)992723469740004120230717d2023 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierDrinking water treatmentVolume 3. organic and mineral micropollutants /Kader GaidHoboken, NJ :ISTE Ltd and John Wiley & Sons, Inc.,[2023]©20231 online resource (454 pages)Print version: Gaid, Kader Drinking Water Treatment, Organic and Mineral Micropollutants Newark : John Wiley & Sons, Incorporated,c2023 9781786307859 Includes bibliographical references and index.Cover -- Title Page -- Copyright Page -- Contents -- Chapter 10. Removal of Micropollutants -- 10.1. Introduction -- 10.2. Pesticides -- 10.3. Pharmaceuticals and industrial waste -- 10.4. Pesticide removal technologies and emerging MPs -- 10.4.1. Adsorption onto activated carbon (AC) -- 10.4.2. Ozonation -- 10.4.3. Ozone-activated carbon combination -- 10.4.4. Advanced chemical oxidation -- 10.4.5. Nanofiltration and reverse osmosis membranes -- 10.5. Frogbox®: an effective monitoring and control tool -- 10.6. The evolution of micropollutants in drinking water plants -- 10.7. References -- Chapter 11. Removal of Perfluorinated Compounds -- 11.1. Physicochemical properties -- 11.2. Presence in the water -- 11.3. Drinking water regulations -- 11.4. Treatments -- 11.4.1. Coagulation-flocculation-settling (or flotation) -- 11.4.2. Chemical oxidation -- 11.4.3. UV oxidation -- 11.4.4. Activated carbon -- 11.4.5. High-pressure membranes: nanofiltration and reverse osmosis -- 11.5. Conclusion -- 11.6. References -- Chapter 12. Biological Removal of Ammonia -- 12.1. The principle of biological nitrification -- 12.2. Design parameters -- 12.2.1. Dissolved oxygen -- 12.2.2. Filtration rate -- 12.2.3. NH4+ concentration removed as a function of temperature (°C) -- 12.2.4. Applicable volume load -- 12.2.5. Contact time -- 12.2.6. Material height -- 12.3. Factors limiting oxygen -- 12.3.1. Mineral carbon -- 12.3.2. pH -- 12.3.3. Temperature -- 12.3.4. Other elements -- 12.3.5. Biological filter washing -- 12.4. Implementation -- 12.4.1. Sand filtration -- 12.5. Biofilters (Biocarbon® process) -- 12.6. Water treatment stations -- 12.6.1. Treatment stations with conventional sand, dual media or GAC filtration -- 12.6.2. Treatment stations with Biocarbon® filters -- 12.7. References -- Chapter 13. Nitrate Removal -- 13.1. Biological treatment.13.1.1. Biochemical reactions -- 13.1.2. Nitrite formation -- 13.1.3. The bacteriological aspect -- 13.1.4. Biofilter description (Biodenit® process) -- 13.1.5. Water treatment stations including biological denitrification -- 13.1.6. Factors affecting biological denitrification -- 13.1.7. Design parameters: applied volumic load -- 13.1.8. Design parameters: minimum contact time (tc min) -- 13.1.9. Design parameters: height of Biodagen® material (m) -- 13.1.10. Design parameters: material volume (m3) -- 13.1.11. Partial treatment -- 13.1.12. Sludge production -- 13.1.13. The reagents -- 13.1.14. Biological denitrification implementation and exploitation -- 13.2. Treatment with ion exchange resins -- 13.2.1. General exchange mechanism (Ecodenit® process) -- 13.2.2. Ecodenit® process technology -- 13.2.3. Integration into the water treatment station -- 13.2.4. Packaged solutions -- 13.3. Nitrate removal by high pressure membranes -- 13.4. References -- Chapter 14. Removal of Perchlorates -- 14.1. General aspects -- 14.2. Main processes for removing perchlorate ions -- 14.2.1. Ion exchange resins -- 14.2.2. Nanofiltration membranes -- 14.3. Conclusions regarding the removal of perchlorates -- 14.4. References -- Chapter 15. Water Softening -- 15.1. Water hardness -- 15.2. Alkalinity -- 15.3. Langelier index (LI or LSI) -- 15.4. Drinking water hardness goals -- 15.5. General principles of water softening -- 15.5.1. The main chemical reactions with lime and soda -- 15.6. Water softening chemical processes -- 15.6.1. Limitations of the process and empirical considerations -- 15.7. Veolia water softening technologies -- 15.7.1. Clariflocculator -- 15.7.2. Actiflo® softening -- 15.7.3. Multiflo® softening -- 15.7.4. Catalytic water softening -- 15.8. Saphira® process -- 15.9. Water softening using high-pressure membranes.15.10. Water softening using ion exchange resins -- 15.10.1. Resin resistance: use precautions -- 15.10.2. Ca2+ and Mg2+ removal -- 15.10.3. Bicarbonate removal -- 15.10.4. Resin operating capacity -- 15.10.5. Operating parameters -- 15.11. Comparison between the four water softening solutions discussed -- 15.11.1. Advantages and limitations of the different solutions -- 15.12. References -- Chapter 16. Metal Removal -- 16.1. Iron and manganese removal: general aspects -- 16.1.1. Presence of iron and manganese at the resource level -- 16.1.2. Presence of iron and manganese at the production level -- 16.1.3. Regulatory aspects of iron and manganese -- 16.1.4. Iron and manganese treatments -- 16.2. Arsenic removal -- 16.2.1. Arsenic chemistry -- 16.2.2. Arsenic treatments -- 16.3. Removal of selenium (Se) -- 16.3.1. The chemistry of selenium -- 16.3.2. Selenium removal treatments -- 16.4. Nickel removal -- 16.4.1. The chemistry of nickel -- 16.4.2. Nickel removal treatment -- 16.5. References -- Index -- Summaries of other volumes -- EULA.Drinking waterPurificationWaterPurificationBiotechnologyDrinking waterPurification.WaterPurification.Biotechnology.628.162Gaid Kader1709293MiAaPQMiAaPQMiAaPQBOOK9910830942203321Drinking water treatment4098943UNINA