The Use of Multi-criteria Analysis in Selecting Water Treatment Units in Sadu Water Treatment Plant, Bandung District, West Java Province, Indonesia
DOI:
https://doi.org/10.23969/jcbeem.v3i2.1854Keywords:
water treatment plant, water quality, multi criteria analysis, alternative water treatmentAbstract
Abstract: Increasing the number of residents and still not fulfilling the scope of drinking water services for resident of Bandung Regency, Tirta Raharja Regional Water Supply Company is developing in the field of drinking water supply. To improve community drinking water services in the Bandung Regency area, Tirta Raharja Water Supply Company plans to add a drinking water tratment plant with a capacity of 150 liters/second located in Sadu Village, Soreang District, Bandung Regency. In the planning of the Sadu WTP (Sdau Water Treatmnet Plant) was carried out several stages of planning, i.e. literature study, preliminary survey, data collection, alternative selection of treatment units using multi criteria analysis, and calculation of treatment unit dimensions. the parameters under review are those that exceed the standard of quality according to the Minister of Health Regulation No. 492 of 2010, i.e. turbidity, BOD, COD and fecal coliform. The selection of Sadu WTP units is based on parameters that exceed drinking water quality standards. There were two alternative proposed (Alternative I and Alternative II) in drinking water treatment, i.e. complete unit (Alternative I) consisting of intake; hydraulic coagulation; hydraulic flocculation; tube settler sedimentation; rapid sand filter; reservoir; disinfection; and sludge drying bed, and slow sand filter unit (Alternative II) consisting of intake, pre-sedimentation, slow sand filter, reservoir, disinfection, and sludge drying bed. The method to be used in determining the unit plan is multi-criteria analysis which refers to aspects based on Minister of Public Works Regulation No. 18/PRT/M/2007. Based on the results of the scoring obtained, the complete treatment unit has the highest score, i.e. 4.05, so the alternative treatment used in the Sadu WTP is the complete treatment unit (Alternative I).Downloads
References
Smita Raghuvanshi, Vikrant Bhakar, Chelikani Sowmya, and K.S. Sangwan. 2017. Waste Water Treatment Plant Life Cycle Assessment: Treatment Process to Reuse of Water. Procedia CIRP, 61, 761-766.
Thomas Bilaliib Udimal, Zhuang Jincai, Emmanuel Caesar Ayamba, and Samuel Mensah Owusu. China’s Water Situation; The Supply of Water and The Pattern of Its Usage. 2017. International Journal of Sustainable Built Environment, 6, 491-500.
Roland Smit, Jasper van de Loo, Martine van den Boomen, Nima Khakzad, Geert Jan van Heck, and A.R.M. (Rogier) Wolfert. 2019. Long-term Availability Modelling of Water Treatment Plants. Journal of Water Process Engineering, vol. 28, 203-213.
Alireza Baharodi. 2016. Water Supply and Distribution Systems. Essential of Oil and Gas Utilities. Process Design, Equipment, and Operations, pages 225-328.
Sadanandam Anupoju. What are Intake Structures? 8 Types of Intake Structures. 2016. The Constructor Civil Engineering Home.
N.D. Tzoupanos and A.I. Zouboulis. 2008. Coagulation-Flocculation Processes in Water/Wastewater Treatment: The Application of New Generation of Chemical Reagents. International Conference on Heat Transfer, Thermal Engineering and Environment, pp 20-22.
Rasha Salah Al-Kizwini. 2015. Improvement of Sedimentation Process Using Inclined Plates. Mesopotamia Environmental Journal, vol. 2, No.1: 100-114.
Tirtoaca (Irimia) Oana, Nedeff Valentin, and Lazar Gabriel. 2011. Actual Stage of Water Filtration. Journal of Engineering Studies and Research, vol. 17, No.4.
Endah Angreni. 2009. Review on Optimization of Conventional Drinking Water Treatment Plant. World Applied Sciences Journal 7(9): 1144-1151.
Syed R. Qasim. 2000. Wastewater Treatmnet Plant: Planning, Design, and Operation. New York
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