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Hydrogeology Journal

Erschienen in:

01.06.2010 | Report

River bank filtration in Haridwar, India: removal of turbidity, organics and bacteria

verfasst von: Rakesh R. Dash, E. V. P. Bhanu Prakash, Pradeep Kumar, Indu Mehrotra, Cornelius Sandhu, Thomas Grischek

Erschienen in: Hydrogeology Journal | Ausgabe 4/2010

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Abstract

Improvement in the quality of river water filtered through a 17-m thick sand-gravel unconfined aquifer at a production well surrounded by surface-water bodies, in Haridwar (India), was studied. Distances between surface water sources and the production well are more than 115 m, and the shortest travel times are 77 and 84 days for monsoon and non-monsoon periods, respectively. During the monsoon period, surface water exhibited increased turbidity by 50–100 times, bacterial count of around 10 times and decreased electrical conductivity of around 0.6 times compared to non-monsoon samples. The quality of abstracted bank filtrate, however, was found not to significantly vary. In non-monsoon months, riverbank filtration resulted in a reduction of turbidity and coliforms by 1 and 3 logs, respectively. For monsoonal months, this increased to more than 2 and 4 logs in turbidity and coliforms reduction, respectively. UV absorbance was also found to be reduced to about 1 log during monsoon season. Results from column studies confirmed that a retention time of around 5 days is adequate to achieve more than 99.9% removal of coliforms.

Vorheriger Artikel Groundwater recharge in natural dune systems and agricultural ecosystems in the Thar Desert region, Rajasthan, India

Nächster Artikel A hydrogeochemical survey of Kilimanjaro (Tanzania): implications for water sources and ages

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Albrechtsen HJ, Boe-Hansen R, Henze M, Mikkelsen PS (1998) Microbial growth and clogging in sand column experiments simulating artificial recharge of ground water. In: Peters JH et al (eds) Artificial recharge of groundwater. Balkema, Rotterdam, The Netherlands, pp 73–77

Alyamani MS, Sen Z (1993) Determination of hydraulic conductivity from complete grain-size distribution curves. Ground Water 31(4):551–555CrossRef

APHA (2005) Standard methods for the examination of water and wastewater, 21st edn. American Public Health Association, Washington, DC

Bellamy WD, Hendricks DW, Logsdon GS (1985) Slow sand filtration: influences of selected process variables. J AWWA 77(12):62–66

Berger P (2002) Removal of Cryptosporidium using bank filtration. In: Proceedings of the NATO Advanced Research Workshop on Riverbank Filtration: understanding contaminant biogeochemistry and pathogen removal, Tihany, Hungary, September 2001, pp 85–121

Beyer W (1964) Zur Bestimmung der Wasserdurchlässigkeit von Kiesen und Sanden aus der Kornverteilung [On the determination of the hydraulic conductivity of gravel and sand based on grain size distribution]. Wasserwirtschaft-Wassertechnik (WWT) 14(6):165–169

CBW (Commissie Bescherming Waterwingebieden) (1980) Richtlijnen en aanbevelingen voor de bescerming van waterwingebieden [Guidelines and recommendations for water protection zones]. Vereniging Van Exploitanten van Waterleidingberdrijven in Nederland (VEWIN), Rigswijk, The Netherlands

Crook J (1985) Water reuse in California. J AWWA 77(7):60–71

Dash RR, Mehrotra I, Kumar P, Grischek T (2008) Lake bank filtration at Nainital, India: water quality evaluation. Hydrogeol J 16(6):1089–1099CrossRef

Dillon PJ, Miller M, Fallowfield H, Hutson J (2002) The potential of river bank filtration for drinking water supplies in relation to microcystin removal in brackish aquifers. J Hydrol 266(3):209–221CrossRef

Doussan C, Poitevin G, Ledoux E, Detay M (1997) River bank filtration: modeling of the changes in water chemistry with emphasis on nitrogen species. J Contam Hydrol 25(1–2):129–156CrossRef

Gannon J, Tan Y, Baveye P, Alexander M (1991) Effects of sodium chloride on transport of bacteria in saturated aquifer material. Appl Environ Microbiol 57(9):2497–2501

Gerba CP, Bitton G (1984) Microbial pollutants: their survival and transport pattern in groundwater. In: Bitton G, Gerba CP (eds) Groundwater pollution microbiology. Wiley, New York, pp 66–88

Gollnitz WD, Clancy JL, Whitteberry BL, Vogt JA (2003) RBF as a microbial treatment process. J AWWA 95(12):56–66

Grischek T, Hiscock KM, Metschies T, Dennis PF, Nestler W (1998) Factors affecting denitrification during infiltration of river water into a sand and gravel aquifer in Saxony, Germany. Water Res 32(2):450–460CrossRef

Grischek T, Schoenheinz D, Ray C (2002) Siting and design issues for river bank filtration schemes. In: Ray C et al (eds) Riverbank filtration: improving source water quality. Kluwer, Dordrecht, The Netherlands, pp 291–302

Havelaar AH, van Olphen M, Schijven JF (1995) Removal and inactivation of viruses by drinking water treatment processes under full-scale conditions. Water Sci Technol 31(5–6):55–62

Hazen A (1893) Some physical properties of sands and gravels. 24th annual report, Massachusetts State Board of Health, Boston, MA

Irmscher R, Teermann I (2002) Riverbank filtration for drinking water supply: a proven method, perfect to face today’s challenges. Water Sci Technol Water Supply 2(5/6):1–8

IS 10500 (1991) Indian standard on drinking water, 1st revision Bureau of Indian Standards, New Delhi

IS 1498 (1970) Indian standard on classification and identification of soils for general engineering purposes, 1st revision Bureau of Indian Standards, New Delhi

IS 2720 (1985) Indian standard on methods of test for soils, part 4: grain size analysis, 2nd revision Bureau of Indian Standards, New Delhi

Jain SK, Agarwal PK, Singh VP (2007) Hydrology and water resources of India. Water Science Technology Library 57. Springer, Dordrecht, The Netherlands

Jüttner F (1995) Elimination of terpenoid odorous compounds by slow sand and river bank filtration of the Ruhr River, Germany. Wat Sci Technol 31(11):211–217CrossRef

Knorr N (1937) Die Schutzzonenfrage in der Trinkwasserhygiene [Protection zones in drinking water hygiene]. Gas Wasserfach 80:330–355

Kühn W, Müller U (2000) Riverbank filtration: an overview. J AWWA 92(12):60–69

Mall AN (1981) Design of infiltration wells in foot hills of Uttar Pradesh. MTech Thesis, University of Roorkee (now IITR), India

Massmann G, Tichomirowa M, Merz C, Pekdeger A (2003) Sulfide oxidation and sulfate reduction in a shallow groundwater system (Oderbruch Aquifer, Germany). J Hydrol 278(1):231–243CrossRef

Medema GJ, Juhasz-Holterman MHA, Luijten JA (2000) Removal of micro-organisms by bank filtration in a gravel-sand soil. In: Jülich W, Schubert J (eds) Proceedings Int Riverbank Filtration Conf., International Association of the Rhine Waterworks (IAWR), Amsterdam, pp 161–168

Miettinen IT, Martikainen PJ, Vartiainen T (1994) Humus transformation at the bank filtration water plant. Water Sci Technol 30(10):179–187

Pang L, Close M, Noonan M (1998) Rhodamine WT and Bacillus subtilis transport through an alluvial gravel aquifer. Ground Water 36(1):112–122CrossRef

Preuss G (1996) Succession of microbial communities during bank filtration and artificial groundwater recharge. In: Proceedings Int Symp on Artificial Recharge of Groundwater, Finnish Environment Institute, Helsinki, June 1996, pp 215–221

Price ML, Flugum J, Jeane P, Tribbet-Peelen L (1999) Sonoma County finds groundwater under direct influence of surface water depends on river conditions. In: Proceedings Int. Riverbank Filtration Conf., National Water Research Institute, Fountain Valley, CA, pp 25–27

Ray C, Melin G, Linsky RB (2002) Riverbank filtration improving source-water quality. Kluwer, Dordrecht, The Netherlands

Ray C, Grischek T, Hunt H (2004) An introduction to riverbank filtration potential for drinking water production. In: Proceedings of Workshop on Riverbank Filtration, IIT Roorkee, March 2004

Sandhu C (2008) Simulation of groundwater flow and transport for Haridwar. Report, Cooperation Centre for River Bank Filtration, Haridwar, India

Schijven JF, Rietveld LC (1997) How do field observations compare with models of microbial removal? Under the microscope-examining microbes in ground water. In: Proceedings of the Groundwater Foundation’s 12th Annual Fall Symposium, Boston, AWWA, Denver, CO, pp 105–113

Schijven JF, Hoogenboezem W, Nobel PJ, Medema GJ, Stakelbeek A (1998) Reduction of FRNA bacteriophage and faecal indicator bacteria by dune infiltration and estimation of striking efficiencies. Water Sci Technol 38(12):127–131CrossRef

Schijven JF, Hoogenboezem W, Hassanizadeh SM, Peters JH (1999) Modeling removal of bacteriophages MS2 and PRD1 by dune recharge at Castricum, The Netherlands. Water Resour Res 35:1101–1111CrossRef

Schijven JF, Medema GJ, Vogelaar AJ, Hassanizadeh SM (2000) Removal of microorganisms by deep well injection. J Contam Hydrol 44(3–4):301–327CrossRef

Schijven J, Berger P, Miettinen I (2002) Removal of pathogens, surrogates, indicators, and toxins using riverbank filtration. In: Ray C et al (eds) Riverbank filtration: Improving source water quality. Kluwer, Dordrecht, The Netherlands, pp 73–116

Schubert J (2002) Hydraulic aspects of river bank filtration: field studies. J Hydrol 266(3):145–161CrossRef

Sinton LW, Finlay RK, Pang L, Scott DM (1997) Transport of bacteria and bacteriophages in irrigated effluent into and through an alluvial gravel aquifer. Water Air Soil Pollut 98(1–2):17–42

Todd DK (1959) Groundwater hydrology. Wiley, New York

Tufenkji N, Ryan JN, Elimelech M (2002) Bank filtration. Environ Sci Technol 36(21):422A–428ACrossRef

Verstraeten IM, Thurman EM, Lindsey ME, Lee EC, Smith RD (2002) Changes in concentrations of triazine and acetamide herbicides by bank filtration, ozonation, and chlorination in a public water supply. J Hydrol 266(3–4):190–208CrossRef

Wang J (2002) Riverbank filtration case study at Louisville, Kentucky. In: Ray C et al (eds) Riverbank filtration: improving source water quality. Kluwer, Dordrecht, The Netherlands, pp 117–146

Wang J, Smith J, Dooley L (1995) Evaluation of riverbank infiltration as a process for removing particles and DBP precursors. In: Proceedings Water Quality Technology Conf, American Water Works Assoc., Denver, CO

Weiss WJ, Bouwer EJ, Ball WP, O’Melia CR, Arora H, Speth TF (2002) Reduction in disinfection byproduct precursors and pathogens during riverbank filtration at three Midwestern United States drinking-water utilities. In: Ray C et al (eds) Riverbank filtration: improving source water quality. Kluwer, Dordrecht, The Netherlands, pp 147–174

Weiss WJ, Bouwer EJ, Ball WP, O’Melia CR, Arora H, Speth TF (2003) Riverbank filtration: fate of DBP precursors and selected microorganisms. J AWWA 95(10):68–81

Worch E, Grischek T, Börnick H, Eppinger P (2002) Laboratory tests for simulating attenuation processes of aromatic amines in riverbank filtration. J Hydrol 266(3–4):259–268CrossRef

Titel: River bank filtration in Haridwar, India: removal of turbidity, organics and bacteria
verfasst von: Rakesh R. Dash
E. V. P. Bhanu Prakash
Pradeep Kumar
Indu Mehrotra
Cornelius Sandhu
Thomas Grischek
Publikationsdatum: 01.06.2010
Verlag: Springer-Verlag
Erschienen in: Hydrogeology Journal / Ausgabe 4/2010
Print ISSN: 1431-2174
Elektronische ISSN: 1435-0157
DOI: https://doi.org/10.1007/s10040-010-0574-4

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