Please use this identifier to cite or link to this item: http://ir.lib.seu.ac.lk/handle/123456789/4078
Title: Developing water safety plans for Bangalawady water treatment plant, Sammanthurai, Ampara
Authors: Suja, A. C. A.
Shanujah, M.
Kangaiyalan, K.
Jeyakaran, T.
Keywords: Drinking water quality
Hazardous events
Risk matrix
Residual risk
Water safety plan
Issue Date: 27-Nov-2019
Publisher: South Eastern University of Sri Lanka, University Park, Oluvil, Sri Lanka
Citation: 9th International Symposium 2019 on “Promoting Multidisciplinary Academic Research and Innovation”. 27th - 28th November 2019. South Eastern University of Sri Lanka, University Park, Oluvil, Sri Lanka.
Abstract: Changes in land use pattern, improper techniques in water treatment process, and changes in the rate of application of agrochemicals and fertilizers have significant impacts on the treated and raw water quality. Therefore, qualitative and quantitative assessments of water quality are required from catchment to consumer to develop sustainable water management procedures, and this can be implemented by “Water Safety Plans” as its primary objective is to ensure drinking water quality from catchment to consumer through a comprehensive risk assessment and risk management procedure. The Bangalawady water treatment plant located in Sammanthurai, at about 13 km away from Ampara town was selected for this study to develop “Water Safety Plan” since it produces 10000 m3 /day of potable water and treated water is distributed to 1800 households who are living nearby areas, namely Sammanthurai, Kalmunai, Sori Kalmunai and Veeramunai. Intake of this treatment plant is located at Weeragoda, 9 km away from treatment plant. This plant is responsible for operating intake, water treatment plant, storage tanks and distribution systems. The treatment processes consist of screening, pre-chlorination, aeration, coagulation and flocculation, sedimentation, filtration with air and water backwashing system and post chlorination. Possible hazardous events were identified from catchment to consumer by questionnaire surveys, field visits and laboratory tests. A risk matrix was developed to identify the severity of residual risks by assigning rating based on likelihood and severity of hazardous events and existing control measures. Based on the ratings, an improvement plan was drawn up to suggest corrective actions to minimize the residual risks by modifying or repairing components of the water supply system.
URI: http://ir.lib.seu.ac.lk/handle/123456789/4078
ISBN: 978-955-627-189-8
Appears in Collections:9th International Symposium - 2019

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