Waste water process assessment and waterborne pathogens removal using bentonite filtration as an eco-friendly technique in Tlemcen city, Algeria
Abstract
Abstract: Like cities in other arid and semi-arid African countries, Tlemcen is facing population growth problems, water stress, and pollution.
This study summarises the findings from assessing a plant’s role and technology in meeting the public health criteria through the waterborne pathogens identification and enumeration, a complete bacteriological analyses were performed and the count of bacteria has been compared between the three studied processes.
Furthermore, this study is dedicated to the study of the bentonite clay technique, which consists of the targeted pollutants removal at limited cost and a better understanding and control of waste water quality.
The results of the assessment revealed that activated sludge (ASP) treatment plant recorded the highest coliform concentrations with an average of 785.67 MPN/100 ml vs. 1.28 MPN/100 ml for sequential batch reactor (SBR) and 0 MPN/100 ml for membrane bioreactor (MBR) treated water.
The study disclosed the MBR technology as the most efficient in the pathogenic micro-organisms removal, however, the well-known high cost of this technology compared to other processes allowed us to experiment the efficiency of the bentonite clay to get rid of all the pathogens.
Thus, the results of influent and effluent bacterial studies, using bentonite filtering showed a total removal of all counted densities of microorganisms. The latter included total viable counts, total coliform, faecal coliform, faecal Streptococci, Salmonellae, Shigella, Vibrio, Staphylococci, and Listeria.
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U. Blumenthal, , A.Peasey, , G .Ruiz-Palacios, & D.Mara. Guidelines for waste water reuse in agriculture and aquaculture: recommended revisions based on new research evidence.WEDC, Loughborough University, UK, 42p- 2000.
J.G.Damen, , E. B.Banwat, , D. Z Egah, & J.A. Allanana, Parasitic Contamination of Vegetables in Jos, Nigeria. Ann. of Afr. Med. 3: 115 – 118,2007.
B. Weldesilassie, O. Frör, Boelee, E & S. Dabbert, The economic value of improved wastewater irrigation: A contingent valuation study in Addis Ababa, Ethiopia. J . Agr. and Res. Eco. 34: 428-44, 2009.
R .Srikanth, & D. Naik, Prevalence of Giardiasis due to wastewater reuse for agriculture in the suburbs of Asmara City, Eritrea. Int. J. of Env. Heal. Res. 14: 43-52, 2004a.
R.M.Nyarango, , P.A. Aloo., E.W. Kabiru, & B. O. Nyanchongi, The risk of pathogenic intestinal parasite infections in Kisii Municipality, Kenya. BMC Public Health, 8:237, 2008.
M.S. Negm, N.M. Nagy and M.H. Abdel-Rasik,., Sewage characteristics and per capita loads in Ismailia City. Second Middle East Conference, Cairo, Egypt, on Wastewater Management, 1995.
R.E. Grim and N. Guven. Bentonites, Geology, Mineralogy, Properties and Uses. Developments in Sedimentology, 24, Elsevier Sci. Publ. Co, 1978.
R. Lakshmanan, S.Chowdhury, C. Baresel, IVL Swedish Environmental Research Institute Box 210 60 SE-100 31 Stockholm Sweden. Aqua-Q and IVL Technical Report, June 2014.
USEPA, September 2012. Guidelines for water reuse. EPA/600/R-12/618.
Gaouar M. Gaouar N. Best available technology assessment of three existing processes in waste water treatment field ;Larhyss Journal , ( September 2016) in progress.
M. Malovanyн, N. Vronska and H. Sakalova, On the use of natural sorbents for removal of microbial contaminants from water solutions Lviv Polytechnic National University, 79013 Bandery 12, Lviv, Ukraine,2013.
N.C.Roberts, R.J. Siebeling, J.B. Kaper and H.B. Bradford. Vibrios in the Louisiana Gulf coast environment. Microb. Ecol., 82-99, 1982.
J.Lesne, B.Baleux,; A.Baussaid and L.Hassani. Dynamics of Vibrio cholera in experimental sewage stabilization ponds under arid Mediterranean climate. Wat. Sci. Tech., 24, 387, 1991.
J.Ahtiainen,; M.Niemi, and H.Jousimies-somer. Staphylococci in polluted water and in waters of uninhabited areas. Wat. Sci. Tech., 24103, 1991.
S. El-Hawaary,; E.Gamila,; A.M. Shaban, and F.A El-Gohary,., Microbiological characteristics of wastewater in Egypt. 1. Raw Wastewater. Egypt. J. Microbiol.32, No. 2, pp. 201-216, 1997.
J. Watkins, and P. Sleath, Karen, Isolation and enumeration of Listeria monocytogenes from sewage, sewage sludge and river water. J. Appl, Bacteriol., 50, 1,. 1981.characteristics of wastewater in Egypt. 1. Raw Wastewater. Egypt. J. Microbiol. 32, No. 2, pp. 201-216, 1997.
M. Mogens and S. Joergen . Low technology water purification by bentonite clay flocculation as performed in sudanese villages: bacteriological examinations. Wat. Rese. 23, 7, pp 873–882, 1989
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