PROTOTYPE SISTEM MONITORING KEKERUHAN DAN FILTRASI AIR SUMUR TERINTEGRASI INTERNET OF THINGS BERBASIS PLATFORM THINGSBOARD UNTUK APLIKASI RUMAH TANGGA

AISYAH FAUZIYAH, . (2025) PROTOTYPE SISTEM MONITORING KEKERUHAN DAN FILTRASI AIR SUMUR TERINTEGRASI INTERNET OF THINGS BERBASIS PLATFORM THINGSBOARD UNTUK APLIKASI RUMAH TANGGA. Sarjana thesis, UNIVERSITAS NEGERI JAKARTA.

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Abstract

Penelitian ini mengembangkan prototype sistem monitoring kekeruhan dan filtrasi air sumur terintegrasi Internet of Things (IoT) berbasis platform ThingsBoard Cloud untuk aplikasi rumah tangga. Sistem memanfaatkan sensor turbidity TS-300B untuk mendeteksi kekeruhan air, sensor ultrasonic JSN-SR04T untuk mengukur ketinggian air, dan mikrokontroler ESP32 sebagai pusat pemrosesan data serta kontrol pompa filtrasi otomatis. Media filtrasi bertingkat yang terdiri dari pasir malang, pasir silika, batu hias, dan kapas filter berhasil menurunkan kekeruhan air dari 297 NTU menjadi 22 NTU dalam waktu 42 menit, dengan efisiensi rata-rata 26,85% per interval dan total penurunan mencapai 92,59%. Pengujian menunjukkan akurasi sensor ultrasonic JSN-SRO4T dengan error 0% dan stabilitas komunikasi IoT yang mendukung pengiriman data real-time ke dashboard ThingsBoard Cloud. Sistem ini menawarkan visualisasi data kekeruhan dan level air melalui dashboard yang dapat diakses melalui perangkat apa pun, memberikan kemudahan pemantauan jarak jauh. Logika On-off controller memastikan pompa aktif saat kekeruhan melebihi 25 NTU sesuai batas kadar aman kekeruhan air yang sudah ditetapkan oleh Permenkes Nomor 32 Tahun 2017 dan berhenti ketika nilaidi bawwah 25 NTU, menunjukkan efisiensi dan responsivitas yang baik. Solusi ini dirancang ekonomis dan praktis untuk kebutuhan higiene rumah tangga, sekaligus mendukung pencapaian Sustainable Development Goals (SDGs) poin ke-6 terkait ketersediaan air bersih. Hasil penelitian ini dapat menjadi dasar pengembangan sistem dengan parameter tambahan seperti pH atau TDS untuk aplikasi yang lebih luas di masa depan. ***** This research developed a prototype system for monitoring turbidity and filtering well water, integrated with the Internet of Things (IoT) using the ThingsBoard Cloud platform for household applications. The system utilizes a turbidity sensor TS-300B to detect water turbidity, an ultrasonic sensor JSN-SR04T to measure water level, and an ESP32 microcontroller as the central data processing unit and automatic pump control. A multi-layered filtration medium, consisting of volcanic gravel, silica sand, decorative stones, and filter cotton, successfully reduced water turbidity from 297 NTU to 22 NTU within 42 minutes, achieving an average efficiency of 26.85% per interval and a total reduction of 92.59%. Testing demonstrated the ultrasonic sensor JSN-SR04T's accuracy with 0% error and stable IoT communication, supporting real-time data transmission to the ThingsBoard Cloud dashboard. The system provides visualization of turbidity and water level data through a dashboard accessible from any device, offering convenient remote monitoring. The On-off controller logic ensures the pump activates when turbidity exceeds 25 NTU, as stipulated by the safe turbidity threshold set by the Indonesian Ministry of Health Regulation No. 32 of 2017, and stops when the value falls below 25 NTU, indicating good efficiency and responsiveness. Designed as an economical and practical solution for household hygiene needs, this system also supports the achievement of Sustainable Development Goal (SDG) 6 related to clean water availability. The research findings provide a foundation for future system enhancements, such as adding parameters like pH or TDS for broader applications.

Item Type: Thesis (Sarjana)
Additional Information: 1). Ir. Heri Firmansyah, S.T., M.T. ; 2). Drs. Rimulyo Wicaksono, M.M.
Subjects: Teknologi dan Ilmu Terapan > Teknologi (umum)
Teknologi dan Ilmu Terapan > Teknik Elektronika
Divisions: FT > D IV Teknologi Rekayasa Otomasi
Depositing User: Users 30031 not found.
Date Deposited: 11 Aug 2025 05:47
Last Modified: 11 Aug 2025 05:47
URI: http://repository.unj.ac.id/id/eprint/59399

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