Tampilan Petugas: Design of Filtering Systems for Monitoring the Quality of Household Drinking Water

Design of Filtering Systems for Monitoring the Quality of Household Drinking Water

Main Author:	Arindita, Usita Putri Dwi
Format:	Article info application/pdf Journal
Bahasa:	eng
Terbitan:	Program Studi D-IV Jaringan Telekomunikasi DIgital, Politeknik Negeri Malang , 2019
Subjects:	Air Minum Hasil Filtrasi Sensor pH Sensor Suhu Sensor Kekeruhan Lampu Ultraviolet Filtrated Drinking Water pH Sensor Temperature Sensor Turbidity Sensor Ultraviolet Lamp
Online Access:	https://jartel.polinema.ac.id/index.php/jartel/article/view/148 https://jartel.polinema.ac.id/index.php/jartel/article/view/148/117

ctrlnum	article-148
fullrecord	<?xml version="1.0"?> <dc schemaLocation="http://www.openarchives.org/OAI/2.0/oai_dc/ http://www.openarchives.org/OAI/2.0/oai_dc.xsd"><title lang="en-US">Design of Filtering Systems for Monitoring the Quality of Household Drinking Water</title><title lang="id-ID">Rancang Bangun Sistem Filterisasi untuk Monitoring Kualitas Air Minum Rumah Tangga</title><creator>Arindita, Usita Putri Dwi </creator><subject lang="id-ID">Air Minum Hasil Filtrasi</subject><subject lang="id-ID">Sensor pH</subject><subject lang="id-ID">Sensor Suhu</subject><subject lang="id-ID">Sensor Kekeruhan</subject><subject lang="id-ID">Lampu Ultraviolet</subject><subject lang="en-US">Filtrated Drinking Water</subject><subject lang="en-US">pH Sensor</subject><subject lang="en-US">Temperature Sensor</subject><subject lang="en-US">Turbidity Sensor</subject><subject lang="en-US">Ultraviolet Lamp</subject><description lang="en-US">Processing water products sources into ready-to-drink water have been widely circulated in community, one of it's a household drinking water filter with 4 filter stages. Drinking water itself is indispensable for human body. It's because most of the human body is made up of water. To meet the water needs in human body, drinking water is required. Drinking water that consumed by community must meet drinking water standards that have been determined by Minister of Health Decree No. 492/2010, which must meet physical, chemical, biological and radioactive requirements.This research aimed at monitoring several drinking water quality parameters in form of Ph (6.5 - 8.5), Turbidity (&lt;5 NTU) and temperature (22 ? - 27 ?) by using pH sensor, turbidity sensor and temperature sensor, and ON/OFF scheduling of ultraviolet light as an inhibitor of bacterial growth which then monitoring results will be sent via nodeMCU ESP8266 and displayed on WEB. The results of the Ph sensor readings show a reading accuracy of up to 97.28%, on the temperature sensor the reading accuracy reaches 98.7%, while the turbidity sensor has an accuracy level of up to 98.875%, the ON/OFF of UV light goes according to schedule. The application software used able to read and store data in real time from water quality sensor so users can monitor quality of drinking water. Water from filtration of water filter can be categorized as suitable for drinking in accordance with drinking water standard in the Decree of Minister of Health No. 492 in 2010.</description><description lang="id-ID">Produk pengolahan sumber air menjadi air siap minum telah banyak beredar di masyarakat, salah satunya merupakan filter air minum rumah tangga dengan 4 tahap filter. Air minum sendiri merupakan hal yang sangat diperlukan bagi tubuh manusia. Hal ini karena sebagian besar tubuh manusia terdiri atas air. Untuk memenuhi kebutuhan air dalam tubuh manusia diperlukan konsumsi air minum. Air minum yang dikonsumsi oleh masyarakat haruslah memenuhi standar air minum yang telah ditentukan oleh Keputusan Mentri Kesehatan Nomor 492 Tahun 2010 yakni harus memenuhi syarat fisika, kimia, biologis dan radioaktif. Penelitian ini ditujukan untuk me-monitoring beberapa parameter kualitas air minum berupa Ph (6,5 – 8,5) , Kekeruhan (&lt;5 NTU) serta suhu (22? - 27 ?) dengan menggunakan sensor pH, sensor kekeruhan dan sensor suhu, serta penjadwalan nyala dan mati lampu ultraviolet sebagai penghambat pertumbuhan bakteri yang kemudian hasil monitoring akan dikirimkan melalui nodeMCU ESP8266 dan ditampilkan pada WEB. Hasil pembacaan sensor Ph menunjukkan tingkat akurasi pembacaan hingga 97.28% , pada sensor suhu keakurasian pembacaan mencapai&nbsp; 98,7%, sedangkan pada sensor kekeruhan memiliki tingkat keakurasian hingga 98,875%, nyala dan mati lampu UV berjalan sesuai penjadwalan. Software aplikasi yang digunakan mampu membaca data secara real time, serta mampu menyimpan data hasil pembacaan sensor kualitas air sehingga pengguna mampu memantau kualitas air minum. Air hasil filtrasi alat filter air dapat dikategorikan layak untuk diminum sesuai dengan standar air minum dalam keputusan Menteri kesehatan No.492 tahun 2010.</description><publisher lang="en-US">Program Studi D-IV Jaringan Telekomunikasi DIgital, Politeknik Negeri Malang</publisher><date>2019-03-01</date><type>Journal:Article</type><type>Other:info:eu-repo/semantics/publishedVersion</type><type>File:application/pdf</type><identifier>https://jartel.polinema.ac.id/index.php/jartel/article/view/148</identifier><identifier>10.33795/jartel.v8i1.148</identifier><source lang="en-US">Jurnal Jartel: Jurnal Jaringan Telekomunikasi; Vol. 8 No. 1 (2019): Vol 08 No 01 (2019) : March 2019; 12-17</source><source lang="id-ID">Jurnal Jaringan Telekomunikasi; Vol 8 No 1 (2019): Vol 08 No 01 (2019) : Maret 2019; 12-17</source><source>2654-6531</source><source>2407-0807</source><source>10.33795/jartel.v8i1</source><language>eng</language><relation>https://jartel.polinema.ac.id/index.php/jartel/article/view/148/117</relation><rights lang="en-US">Copyright (c) 2019 Usita Putri Dwi Arindita</rights><rights lang="en-US">https://creativecommons.org/licenses/by/4.0</rights><recordID>article-148</recordID></dc>
language	eng
format	Journal:Article Journal Other:info:eu-repo/semantics/publishedVersion Other File:application/pdf File Journal:Journal
author	Arindita, Usita Putri Dwi
title	Design of Filtering Systems for Monitoring the Quality of Household Drinking Water
publisher	Program Studi D-IV Jaringan Telekomunikasi DIgital, Politeknik Negeri Malang
publishDate	2019
topic	Air Minum Hasil Filtrasi Sensor pH Sensor Suhu Sensor Kekeruhan Lampu Ultraviolet Filtrated Drinking Water pH Sensor Temperature Sensor Turbidity Sensor Ultraviolet Lamp
url	https://jartel.polinema.ac.id/index.php/jartel/article/view/148 https://jartel.polinema.ac.id/index.php/jartel/article/view/148/117
contents	Processing water products sources into ready-to-drink water have been widely circulated in community, one of it's a household drinking water filter with 4 filter stages. Drinking water itself is indispensable for human body. It's because most of the human body is made up of water. To meet the water needs in human body, drinking water is required. Drinking water that consumed by community must meet drinking water standards that have been determined by Minister of Health Decree No. 492/2010, which must meet physical, chemical, biological and radioactive requirements.This research aimed at monitoring several drinking water quality parameters in form of Ph (6.5 - 8.5), Turbidity (<5 NTU) and temperature (22 ? - 27 ?) by using pH sensor, turbidity sensor and temperature sensor, and ON/OFF scheduling of ultraviolet light as an inhibitor of bacterial growth which then monitoring results will be sent via nodeMCU ESP8266 and displayed on WEB. The results of the Ph sensor readings show a reading accuracy of up to 97.28%, on the temperature sensor the reading accuracy reaches 98.7%, while the turbidity sensor has an accuracy level of up to 98.875%, the ON/OFF of UV light goes according to schedule. The application software used able to read and store data in real time from water quality sensor so users can monitor quality of drinking water. Water from filtration of water filter can be categorized as suitable for drinking in accordance with drinking water standard in the Decree of Minister of Health No. 492 in 2010. Produk pengolahan sumber air menjadi air siap minum telah banyak beredar di masyarakat, salah satunya merupakan filter air minum rumah tangga dengan 4 tahap filter. Air minum sendiri merupakan hal yang sangat diperlukan bagi tubuh manusia. Hal ini karena sebagian besar tubuh manusia terdiri atas air. Untuk memenuhi kebutuhan air dalam tubuh manusia diperlukan konsumsi air minum. Air minum yang dikonsumsi oleh masyarakat haruslah memenuhi standar air minum yang telah ditentukan oleh Keputusan Mentri Kesehatan Nomor 492 Tahun 2010 yakni harus memenuhi syarat fisika, kimia, biologis dan radioaktif. Penelitian ini ditujukan untuk me-monitoring beberapa parameter kualitas air minum berupa Ph (6,5 – 8,5) , Kekeruhan (<5 NTU) serta suhu (22? - 27 ?) dengan menggunakan sensor pH, sensor kekeruhan dan sensor suhu, serta penjadwalan nyala dan mati lampu ultraviolet sebagai penghambat pertumbuhan bakteri yang kemudian hasil monitoring akan dikirimkan melalui nodeMCU ESP8266 dan ditampilkan pada WEB. Hasil pembacaan sensor Ph menunjukkan tingkat akurasi pembacaan hingga 97.28% , pada sensor suhu keakurasian pembacaan mencapai  98,7%, sedangkan pada sensor kekeruhan memiliki tingkat keakurasian hingga 98,875%, nyala dan mati lampu UV berjalan sesuai penjadwalan. Software aplikasi yang digunakan mampu membaca data secara real time, serta mampu menyimpan data hasil pembacaan sensor kualitas air sehingga pengguna mampu memantau kualitas air minum. Air hasil filtrasi alat filter air dapat dikategorikan layak untuk diminum sesuai dengan standar air minum dalam keputusan Menteri kesehatan No.492 tahun 2010.
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institution	Politeknik Negeri Malang (Polinema)
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repository_id	15767
subject_area	Communications Telemunications/Komunikasi Telekomunikasi Electronics/Teknik Elektronika Data Processing, Computer Science/Pemrosesan Data, Ilmu Komputer, Teknik Informatika Wireless Communications/Komunikasi Tanpa Kabel
city	KOTA MALANG
province	JAWA TIMUR
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Design of Filtering Systems for Monitoring the Quality of Household Drinking Water

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