Performance of geotextile-based slow sand filter media in removing total coli for drinking water treatment using system dynamics modelling

Performance of geotextile-based slow sand filter media in removing total coli for drinking water treatment using system dynamics modelling

In a slow sand filter, a biological layer consisting of alluvial mud and various types of microorganisms grows and attaches to the sand media and forms a matrix called schmutzdecke. Changes to several factors, including the quality of raw water, filtration speed, and the addition of media, affect th...

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Main Authors: Nurina Fitriani, Maritha Nilam Kusuma, Budisantoso Wirjodirdjo, Wahyono Hadi, Joni Hermana, Ni'matuzahroh, Setyo Budi Kurniawan, Siti Rozaimah Sheikh Abdullah, Radin Maya Saphira Radin Mohamed
Format: Article
Language:English
Published: Elsevier 2020-09-01
Series:Heliyon
Subjects:
Chemical engineering
Environmental science
Dynamical system
Environmental analysis
Environmental engineering
Water treatment
Online Access:http://www.sciencedirect.com/science/article/pii/S2405844020318107
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spelling doaj-55532ed89eb94f51a262d9d8cef3df6a2020-11-25T03:22:11ZengElsevierHeliyon2405-84402020-09-0169e04967Performance of geotextile-based slow sand filter media in removing total coli for drinking water treatment using system dynamics modellingNurina Fitriani0Maritha Nilam Kusuma1Budisantoso Wirjodirdjo2Wahyono Hadi3Joni Hermana4 Ni'matuzahroh5Setyo Budi Kurniawan6Siti Rozaimah Sheikh Abdullah7Radin Maya Saphira Radin Mohamed8Department of Biology, Faculty of Science and Technology, Universitas Airlangga, Kampus C UNAIR, Jalan Mulyorejo, Surabaya 60115, Indonesia; Corresponding author.Department of Environmental Engineering, Institut Teknologi Adhi Tama Surabaya, Jalan Arif Rahman Hakim No. 100, Surabaya 60117, IndonesiaDepartment of Industrial & System Engineering, Institut Teknologi Sepuluh Nopember, Kampus ITS-Keputih Sukolilo, Surabaya 60111, IndonesiaDepartment of Environmental Engineering, Institut Teknologi Sepuluh Nopember, Kampus ITS-Keputih Sukolilo, Surabaya 60111, IndonesiaDepartment of Environmental Engineering, Institut Teknologi Sepuluh Nopember, Kampus ITS-Keputih Sukolilo, Surabaya 60111, IndonesiaDepartment of Biology, Faculty of Science and Technology, Universitas Airlangga, Kampus C UNAIR, Jalan Mulyorejo, Surabaya 60115, IndonesiaDepartment of Chemical and Process Engineering, Faculty of Engineering and Built Environment, Universiti Kebangsaan Malaysia, 43600, UKM Bangi, Selangor, MalaysiaDepartment of Chemical and Process Engineering, Faculty of Engineering and Built Environment, Universiti Kebangsaan Malaysia, 43600, UKM Bangi, Selangor, MalaysiaDepartment of Civil Engineering Engineering, Faculty of Civil and Built Environment, Universiti Tun Hussein Onn, 86400, Parit Raja, Batu Pahat, Johor, MalaysiaIn a slow sand filter, a biological layer consisting of alluvial mud and various types of microorganisms grows and attaches to the sand media and forms a matrix called schmutzdecke. Changes to several factors, including the quality of raw water, filtration speed, and the addition of media, affect the performance of the slow sand filter unit in producing treated water. Geotextiles can be equipped to improve the performance of a slow sand filter in removing pollutants. The selection of several factors that affect slow sand filter performance can be used as a starting point for the engineering system to determine the best pattern of performance behavior. This approach was carried out by looking at the dynamic behavior patterns of slow sand filter system performance in treating raw water. This research has not yet been conducted extensively. The dynamic behavior pattern approach to the performance of the slow sand filter unit was used to obtain the behavior model for the schmutzdecke layer on the filter. The system dynamic approach focused on treatment scenarios that can determine the behavior of the slow sand filter system. Several factors were assessed, including temperature, turbidity, nutrient concentration, algal concentration, bacteria and dissolved oxygen. Model simulation results show that the comparison of C: N: P values affected the performance of the schmutzdecke layer in removing total coli. The slow sand filter unit was capable of producing treated water with a total amount of coli equal to 0 on the C: N: P values of 85: 5.59: 1.25, respectively, and a 9 cm geotextile thickness.http://www.sciencedirect.com/science/article/pii/S2405844020318107Chemical engineeringEnvironmental scienceDynamical systemEnvironmental analysisEnvironmental engineeringWater treatment
collection DOAJ
language English
format Article
sources DOAJ
author Nurina Fitriani
Maritha Nilam Kusuma
Budisantoso Wirjodirdjo
Wahyono Hadi
Joni Hermana
Ni'matuzahroh
Setyo Budi Kurniawan
Siti Rozaimah Sheikh Abdullah
Radin Maya Saphira Radin Mohamed
spellingShingle Nurina Fitriani
Maritha Nilam Kusuma
Budisantoso Wirjodirdjo
Wahyono Hadi
Joni Hermana
Ni'matuzahroh
Setyo Budi Kurniawan
Siti Rozaimah Sheikh Abdullah
Radin Maya Saphira Radin Mohamed
Performance of geotextile-based slow sand filter media in removing total coli for drinking water treatment using system dynamics modelling
Heliyon
Chemical engineering
Environmental science
Dynamical system
Environmental analysis
Environmental engineering
Water treatment
author_facet Nurina Fitriani
Maritha Nilam Kusuma
Budisantoso Wirjodirdjo
Wahyono Hadi
Joni Hermana
Ni'matuzahroh
Setyo Budi Kurniawan
Siti Rozaimah Sheikh Abdullah
Radin Maya Saphira Radin Mohamed
author_sort Nurina Fitriani
title Performance of geotextile-based slow sand filter media in removing total coli for drinking water treatment using system dynamics modelling
title_short Performance of geotextile-based slow sand filter media in removing total coli for drinking water treatment using system dynamics modelling
title_full Performance of geotextile-based slow sand filter media in removing total coli for drinking water treatment using system dynamics modelling
title_fullStr Performance of geotextile-based slow sand filter media in removing total coli for drinking water treatment using system dynamics modelling
title_full_unstemmed Performance of geotextile-based slow sand filter media in removing total coli for drinking water treatment using system dynamics modelling
title_sort performance of geotextile-based slow sand filter media in removing total coli for drinking water treatment using system dynamics modelling
publisher Elsevier
series Heliyon
issn 2405-8440
publishDate 2020-09-01
description In a slow sand filter, a biological layer consisting of alluvial mud and various types of microorganisms grows and attaches to the sand media and forms a matrix called schmutzdecke. Changes to several factors, including the quality of raw water, filtration speed, and the addition of media, affect the performance of the slow sand filter unit in producing treated water. Geotextiles can be equipped to improve the performance of a slow sand filter in removing pollutants. The selection of several factors that affect slow sand filter performance can be used as a starting point for the engineering system to determine the best pattern of performance behavior. This approach was carried out by looking at the dynamic behavior patterns of slow sand filter system performance in treating raw water. This research has not yet been conducted extensively. The dynamic behavior pattern approach to the performance of the slow sand filter unit was used to obtain the behavior model for the schmutzdecke layer on the filter. The system dynamic approach focused on treatment scenarios that can determine the behavior of the slow sand filter system. Several factors were assessed, including temperature, turbidity, nutrient concentration, algal concentration, bacteria and dissolved oxygen. Model simulation results show that the comparison of C: N: P values affected the performance of the schmutzdecke layer in removing total coli. The slow sand filter unit was capable of producing treated water with a total amount of coli equal to 0 on the C: N: P values of 85: 5.59: 1.25, respectively, and a 9 cm geotextile thickness.
topic Chemical engineering
Environmental science
Dynamical system
Environmental analysis
Environmental engineering
Water treatment
url http://www.sciencedirect.com/science/article/pii/S2405844020318107
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