05552nam 22015613a 450 991036756890332120250203235431.09783039213061303921306710.3390/books978-3-03921-306-1(CKB)4100000010106057(oapen)https://directory.doabooks.org/handle/20.500.12854/45902(ScCtBLL)7c5abf8d-9802-4f76-a0f2-a6bcd1c4d078(OCoLC)1163811855(oapen)doab45902(EXLCZ)99410000001010605720250203i20192019 uu engurmn|---annantxtrdacontentcrdamediacrrdacarrierEfficiency of Bank Filtration and Post-TreatmentThomas Grischek, Chittaranjan RayMDPI - Multidisciplinary Digital Publishing Institute2019Basel, Switzerland :MDPI,2019.1 electronic resource (352 p.)9783039213054 3039213059 Riverbank filtration (RBF) schemes for the production of drinking water are increasingly challenged by new constituents of concern, such as organic micropollutants and pathogens in the source water and hydrological flow variations due to weather extremes. RBF and new technology components are integrated and monitoring and operating regimes are adopted to further optimize water treatment in bank filtration schemes for these new requirements. This Special Issue presents results from the EU project AquaNES "Demonstrating synergies in combined natural and engineered processes for water treatment systems" (www.aquanes.eu). Additionally, papers from other research groups cover the efficiency of bank filtration and post-treatment, advantages and limitations of combining natural and engineered processes, parameter-specific assessment of removal rates during bank filtration, and the design and operation of RBF wells. The feasibility, design, and operation of RBF schemes under specific site conditions are highlighted for sites in the US, India, and South KoreaHistory of engineering and technologybicsscfloodsenvironmental monitoringriver bank filtrationheavy metalsriverside water sourceentrance velocityultrafiltrationonline monitoringdrinking water treatmentwater treatmentsystem costsoptimizationbiofilmfluorescence excitation-emission matrixriverbedinorganic chemicalswell structure remodelingriverbank filtration (RBF)sub-oxic conditionselectro-chlorinationenergy generationpressure lossbank filtrate portionremoval efficacybank filtratemanganeseout/in membrane comparisonpharmaceutical residuesanalytical methodhydrochemistrysubsurface geologydissolved organic mattercolumn experimentsstorage tankgroundwaterorganic matter compositionwater supplyrural water supplycollector wellsmirror-image methodsouthern Indiagabapentinmicroorganismssite investigationsmall communitiesdecentralized capillary nanofiltrationPHREEQCrenewable energydroughtshydrological trendsbank filtrationfilter cakesulphatepoint-bar alluvial settinginline electrolysisenergy efficiencyGangaclimate changeturbineNakdong Riverorganic matter degradationoxypurinolslow sand filtrationsuboxicPARAFAC-EEMKrishna Riverwater qualitysmart villagesmicropollutantsanoxicdissolved organic carbon (DOC)attenuationorganic micropollutantsdisinfectionsurface water treatmentnitratedrinking water hydropowerpesticidesdisinfection by-productsDamodarpathogen barrierorganic carbonsalinitysustainable water productioncloggingYamunaLC-OCDredox sensitivitypharmaceuticalshigh temperatureperformanceriverbank filtrationtrihalomethanesironHistory of engineering and technologyGrischek Thomas1786998Ray ChittaranjanScCtBLLScCtBLLBOOK9910367568903321Efficiency of Bank Filtration and Post-Treatment4319591UNINA