Sistem Deteksi Kebocoran Pipa Dan Monitoring Debit Air Menggunakan Flowmeter Berbasis Internet Of Things

Fikri, Moh. Wildan Ali and Dr. Raden Arief Setyawan,, S.T., M.T. and Ir. Nurussa’adah, M.T., M.T. (2023) Sistem Deteksi Kebocoran Pipa Dan Monitoring Debit Air Menggunakan Flowmeter Berbasis Internet Of Things. Sarjana thesis, Universitas Brawijaya.

Abstract

Air merupakan kebutuhan utama bagi manusia karena pemenuhan keberlangsungan hidup. Penyediaan air merupakan kegiatan langsung dari PDAM ke masyarakat. Kerugian yang sering timbul yaitu kebocoran karena pipa pecah atau pipa tak rapat. Informasi kebocoran dilakukan oleh masyarakat secara langsung ke petugas untuk melakukan pengecekan pipa. Perbaikan yang terlambat dapat mengakibatkan air terbuang sia-sia. Berkembangnya teknologi era 4.0 bahwa membawa dampak besar bagi masyarakat. Sehingga, peneliti merancang untuk membuat sistem deteksi kebocoran pipa dan monitoring debit air menggunakan flowmeter berbasis internet of things. Sistem ini menggunakan 3 buah flowsensor. Setiap flowsensor terhubung ke NodeMCU. NodeMCU terhubung ke server Thingspeak melalui jaringan internet Wi-Fi. Hasil pembacaan oleh flowsensor diterima oleh NodeMCU. Kemudian NodeMCU mengirimkan hasil data pengolahan ke Thingspeak. Thingspeak akan menampilkan data di halaman website. Parameter pengamatan yang digunakan yakni debit air (L/s) dan volume (liter). Pengujian sistem menggunakan pipa berlubang mempengaruhi nilai debit air. Debit air saat terhubung dengan pipa berlubang 5 x 2 mm, rata-rata debit air yaitu 0,30 L/s. Lubang 9 x 2 mm, rata-rata debit air yaitu 0,27 L/s. Lubang 1 x 15 mm, rata-rata debit air yaitu 0,20 L/s. Lubang 1 x 20 mm, rata-rata debit air yaitu 0,03 L/s. Disimpulkan bahwa semakin besar lubang atau semakin banyak lubang pada pipa maka debit air semakin kecil.

English Abstract

Water is a primary need for humans because of the fulfillment of survival. Stock of water is a direct activity from PDAM to the community. Losses that often happens are leaks due to broken pipes or pipes that are not tight. Leakage information is carried out by the community directly to officers to check the pipe. Late repairs can result in wasted water. The development of technology in the 4.0 era has had a big impact on society. So, the researchers designed to create a pipeline leakage detection system and monitor water discharge using flowmeter based internet of things. This system is using 3 flowsensors. Each flowsensor is connected to NodeMCU. NodeMCU is connected to the Thingspeak server via a Wi-Fi internet network. The results of reading by the flowsensor will be received by NodeMCU. Then NodeMCU sends result of processing data to Thingspeak. Thingspeak will display the data on the website page. The observation parameters used were water discharge (L/s) and volume (liters). Testing the system using perforated pipes affects the value of the water discharge. The water discharge when connected to a 5 x 2 mm perforated pipe, the average water discharge is 0.30 L/s. The hole is 9 x 2 mm, the average water discharge is 0.27 L/s. Hole 1 x 15 mm, the average water discharge is 0.20 L/s. Hole 1 x 20 mm, the average water discharge is 0.03 L/s. So, concluded of the testing is the bigger hole or the more holes in the pipe, water discharge will be smaller.

Item Type:	Thesis (Sarjana)
Identification Number:	0523070071
Uncontrolled Keywords:	flowsensor, debit air, NodeMCU, kebocoran .- flowsensor, water discharge, NodeMCU, leak
Subjects:	600 Technology (Applied sciences) > 621 Applied physics > 621.3 Electrical, magnetic, optical, communications, computer engineering; electronics, lighting > 621.38 Electronics, communications engineering > 621.381 Electronics
Divisions:	Fakultas Teknik > Teknik Elektro
Depositing User:	PKN 02 UB
Date Deposited:	09 Jun 2023 02:59
Last Modified:	09 Jun 2023 02:59
URI:	http://repository.ub.ac.id/id/eprint/201278

Text (DALAM MASA EMBARGO) MOH. WILDAN ALI FIKRI.pdf Restricted to Registered users only until 31 December 2025. Download (6MB)

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