Groundwater and surface-water utilisation using a bank infiltration technique in Malaysia
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- 作者:Mohd Khairul Nizar Shamsuddin (1) (2)
Wan Nor Azmin Sulaiman (2)
Saim Suratman (1)
Mohamad Pauzi Zakaria (2)
Kamarudin Samuding (3) - 关键词:Bank Infiltration ; Hydrochemistry ; Alluvial aquifer ; Groundwater/surface water relations ; Malaysia
- 刊名:Hydrogeology Journal
- 出版年:2014
- 出版时间:May 2014
- 年:2014
- 卷:22
- 期:3
- 页码:543-564
- 全文大小:
- 参考文献:1. Abdullah Sani HH (1985) Laporan kemajuan Pemetaan geologi kawasan Teluk Datuk-Sepang. Syit 101-, Annual report, Geological Survey Malaysia, Selangor, Malaysia, pp 1991-995
2. Al-Badaii FM (2011) Water quality assessment of the Semenyih River, MSc Thesis, Universiti Kebangsaan Malaysia, Selangor, Malaysia
3. APHA (2005) Standard methods for the examination of water and wastewater, 21st edn. American Water Works Association, Washington, DC
4. Appelo CAJ, Postma D (1993) Geochemistry, groundwater and pollution. Balkema, Rotterdam. doi:10.1002/esp.3290200510
5. Ayub MS (2005) Malaysian meteoric water line: an input to isotopes hydrological studies. TAG Brown Bag Seminar no. 1, Malaysia Institute for Nuclear Technology Research (MINT), Selangor, Malaysia
6. Carman PC (1938) The determination of the specific surface of powders. J Soc Chem Ind Trans 57:225
7. Carman PC (1956) Flow of gases through porous media, Butterworths Scientific Publications, London
8. Chapelle FH, McMahon PB, Dubrovsky NM, Fuhii RF, Oasksford ET, Vroblesky DA (1995) Deducing the distribution of terminal electron-accepting processes in hydrologically diverse groundwater systems. Water Resour Res 31(2):359-71 CrossRef
9. Craig H (1961) Isotopic variations in meteoric waters. Science 133:1702-703
10. CSE (2007) Sewage canal. How to clean up the Yamuna. Centre for science and environment, New Delhi
11. Dash RR, Mehrotra I, Kumar P, Grischek T (2008) Lake bank filtration at Nainital, India: water quality evaluation. Hydrogeol J 16(6):1089-099. doi:10.1007/s10040-008-0295-0 CrossRef
12. Department of Environment (DOE) (2005) Environmental quality report, Department of Environment Malaysian, 71 pp
13. Department of Standards Malaysia (2010) Malaysian standard: drinking water-quality requirements (MS 2320:2010). Department of Standard Malaysia, Kuala Lumpur, 19 pp
14. Department of Statistics Malaysia (2010) Population distribution and basic demographic characteristics report. Department of Statistics, Kuala Lumpur
15. 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):209-21 CrossRef
16. Donald D, Grygaski T (2002) Development of a sustainable potable water supply for rural villages in the coastal region of Tanzania, Africa. ENVE 431 final project report, University of Waterloo, Waterloo, ON
17. Dousson 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 25:129-56. doi:10.1016/S0169-7722(96)00024-1 CrossRef
18. Farizawati S, Lim YA, Ahmad RA, Fatimah CT, Siti Nor Y (2005) Contribution of cattle farms towards river contamination with / Giardia cysts and / Cryptosporidium oocysts in Sungai Langat Basin. Trop Biomed 22(2):89-8
19. Gobbett DJ, Hutchison CS (1973) Geology of the Malay Peninsula: West Malaysia and Singapore. Regional Geology Series, Wiley, New York, 438 pp
20. Grischek T, Schoenheinz D, Ray C (2002) Sitting 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 291-02
21. Grüenheid S, Amy G, Jekel M (2005) Removal of bulk dissolved organic carbon (DOC) and trace organic compounds by bank filtration and artificial recharge. Water Res 39(14):3219-228. doi:10.1016/j.watres.2005.05.030 CrossRef
22. Hazen A (1911) Discussion of Dams on sand foundations by A. C.Koenig. Trans. Am Soc Civ Eng 73:199-03
23. Hiscock KM, Grischek T (2002) Attenuation of groundwater pollution by bank filtration. J Hydrol 266:139-44. doi:10.1016/S0022-1694(02)00158-0 CrossRef
24. 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-
25. JICA, MGD (2002) The study on the sustainable groundwater resources and environmental management for the Langat Basin in Malaysia, vols 1-. Executive Summary, Japan International Cooperation Agency (JICA) and Dept. of Minerals and Geosciences Malaysia, Kuala Lumpur
26. Jüttner F (1999) Efficacy of bank filtration for the removal of fragrance compounds and aromatic hydrocarbons. Water Sci Technol 40(6):123-28. doi:10.1016/S0273-1223(99)00547-8 CrossRef
27. Kneisel C (2006) Assessment of subsurface lithology in mountain environments using 2D resistivity imaging. Geomorphology 80:32-4 CrossRef
28. Kozeny J (1927) “Ueber kapillare Leitung des Wassers im Boden-Wien [On capillary conduction of water in the soil, Vienna]. Akad Wiss 13(2a):271
29. Kühn W, Müller U (2000) Riverbank filtration: an overview. J Am Water Works Assoc 92(12):60-9
30. Lalwani S, Dogra TD, Bhardwaj DN, Sharma RK, Murty OP, Vij A (2004) Study on arsenic level in groundwater of Delhi using hydride generator accessory coupled with atomic absorption spectrophotometer. Indian J Clin Biochem 19(2):135-40. doi:10.1007/BF02894273 CrossRef
31. Loke MH, Barker RD (1996) Rapid least squares inversion of apparent resistivity pseudosection using a quasi-Newton method. Geophys Prospect 44(3):131-52 CrossRef
32. Loke MH, Acworth I, Dahlin T (2003) A comparison of smooth and blocky inversion methods in 2D electrical imaging surveys. Explor Geophys 34(3):182-87 CrossRef
33. Ray C (2001) Riverbank filtration: an analysis of parameters for optimal performance. In: AWWA Annual Conference, Washington DC
34. Ray C, Grischek T, Schubert J, Wang Z, Speth TF (2002) A perspective of riverbank filtration. J Am Water Works Assoc 94(4):149-60
35. Schijven FJ, Majid Hassanizadeh S (2000) Removal of viruses by soil passage: overview of modeling, processes and parameters. Crit Rev Environ Sci Technol 30(1):49-27 CrossRef
36. Schijven JF, 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 73-16
37. Schubert J (2002) Hydraulic aspect of river bank filtration-field studies. J Hydrol 266:145-61 CrossRef
38. Shamrukh M, Ahmed AW (2008) Riverbank filtration for sustainable water supply: application to a large-scale facility on the Nile River. Clean Technol Environ Policy 10:351-58. doi:10.1007/s10098-007-0143-2 CrossRef
39. Sontheimer H (1980) Experiences with riverbank filtration along the Rhine River. J Am Water Works Assoc 72:386-90
40. Sprinkle CR (1989) Geochemistry of the Floridan aquifer system in Florida and in parts of Georgia, South Carolina, and Alabama: U.S. Geological Survey Professional paper 1403-I, p 105
41. Stuyfzand PJ, Luers F, Reijnen GK (1994) Geohydrochemical aspects of methane in groundwater in the Netherlands, H2O 27 (in dutch), pp 500-10
42. USEPA (2005) Method 1623: / Cryptosporidium and / Giardia in water by filtration/IMS/FA. EPA 821-R-OI-025, USEPA, Office of Water, Washington, DC
43. Weiss WJ, Bouwer EJ, Ball WP, O’Melia CR, Aurora 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, Melin G, Linsky RB (eds) Riverbank filtration: improving source water quality. Kluwer, Dordrecht, The Netherlands, pp 147-74
44. Weiss WJ, Bouwer EJ Ball, WP, O′Melia CR, Le Chevallier MW, Arora, H, Aboytes R, Speth TF (2003) Study of water quality improvements during riverbank filtration at three Midwestern United States drinking water utilities. Geophys Res Abstracts 5:04297
45. WHO (2008) Guidelines for drinking-water quality [electronic resource]: incorporating 1st and 2nd addenda, vol 1, recommendations, 3rd edn. WHO, Geneva, 515 pp
46. WHO, UNESCO/UNEP (2001) Water quality assessment: a guide to the use of biota, sediment and water in environmental monitoring, 2nd edn. UNESCO/WHO/UNEP, Paris - 作者单位:Mohd Khairul Nizar Shamsuddin (1) (2)
Wan Nor Azmin Sulaiman (2)
Saim Suratman (1)
Mohamad Pauzi Zakaria (2)
Kamarudin Samuding (3)
1. Hydrogeology Research Centre, National Hydraulic Research Institute of Malaysia, Lot 5377, Jalan Putra Permai, 43300, Seri Kembangan, Selangor, Malaysia
2. Faculty of Environmental Studies, University Putra Malaysia, 43400, Serdang, Selangor, Malaysia
3. Environmental Division, Malaysian Nuclear Agency, Bangi, 43000, Kajang, Selangor, Malaysia - ISSN:1435-0157
文摘
Bank infiltration (BI) is one of the solutions to providing raw water for public supply in tropical countries. This study in Malaysia explores the use of BI to supplement a polluted surface-water resource with groundwater. Three major factors were investigated: (1) contribution of surface water through BI to the resulting abstraction, (2) input of local groundwater, and (3) water-quality characteristics of the resulting water supply. A geophysical method was employed to define the subsurface geology and hydrogeology, and isotope techniques were performed to identify the source of groundwater recharge and the interaction between surface water and groundwater. The physicochemical and microbiological parameters of the local surface-water bodies and groundwater were analyzed before and during water abstraction. Extracted water revealed a 5-8?% decrease in turbidity, as well as reductions in HCO3 ?/sup>, Cl?/sup>, SO4 2?/sup>, NO3 ?/sup>, Ca2+, Al3+ and As concentrations compared with those of Langat River water. In addition, amounts of E. coli, total coliform and Giardia were significantly reduced (99.9?%). However, water samples from test wells during pumping showed high concentrations of Fe2+ and Mn2+. Pumping test results indicate that the two wells used in the study were able to sustain yields.