Design of Wastewater Filtration System for Microcontroller and Smartphone-Based Hydroponic Agriculture
DOI:
https://doi.org/10.55927/eajmr.v1i3.93Keywords:
microcontroller, smartphone, water quality standard, water content, hydroponicsAbstract
The level of water pollution sourced from daily household waste needs to be watched out, especially since the level of awareness of the Indonesian people is still relatively low in water treatment. Waste water treatment plants are always synonymous with high installation costs and the complexity of maintenance and management of the installation equipment. Based on the above background, the authors make a household wastewater treatment installation device in the Lirboyo Al-Mahrusiyah Islamic Boarding School Dormitory, Kediri City, into ready-to-use water for urban agriculture using the hydroponic system method. This device is based on a microcontroller that is connected to the Blynk Web Server which can be operated using a Smartphone. This system is also able to provide results of monitoring the quality of water quality standards resulting from waste treatment in the Lirboyo Al-Mahrusiyah Islamic Boarding School Dormitory. This application can also be applied as a remotecontrol tool by utilizing the internet network to determine the quality of household wastewater quality standards with a water acidity level (pH) of 7.12 and a TDS (Total Dissolve Solid) value of 521 mg/L and turbidity of 5 NTU (Nephelometric Turbidity Units) in real time.
References
Adywater. 2019. 7 Fungsi Membran RO, Mulai dari Pemurnian Air Minum Hingga Filter Air Industri. https://www.membranro.com/2019/03/7-fungsi- membran-ro-mulai-dari.html (accessed on June 28th, 2020).
Asri, Dinda Kurnia. 2019. Rancang Bangun Sistem Pemantau Suhu, Kelembaban, Dan Ph Pada Media Tanam Hidroponik Dengan Nodemcu (Micro Controller Unit) Berbasis Web [Skripsi]. Fakultas Teknik, Universitas Lampung.
Beetrona. 2019. Membahas Cara Kerja Sensor Ultrasonic HC-SR04. https://beetrona.com/membahas-cara-kerja-sensor-ultrasonic-hc-sr04 (accessed on June 28th, 2020).
Febrianto. 2018. Apa itu Arduino Uno?. https://ndoware.com/apa-itu-arduino- uno.html (accessed on June 28th, 2020).
Herwibowo, Kunto, dan N.S. Budiana. Hidroponik Sayuran. 2014. Penebar Swadaya. Jakarta.
Kho, Dickson. 2020. Pengertian Mikrokontroler (Microcontroller) dan Strukturnya. https://teknikelektronika.com/pengertian-mikrokontroler- microcontroller-struktur-mikrokontroler, (accessed on June 28th, 2020).
Kho, Dickson. 2020. Pengertian Relay dan Fungsinya. https://teknikelektronika.com/pengertian-relay-fungsi-relay (accessed on June 28th, 2020).
Ningrum E.S, Susetyo P. W, Putra T.A. 2008. Sistem Sensor Keasaman Air (pH) untuk Aplikasi Pengontrolan Kondisi Air Tambak Udang [Tugas Akhir]. Politeknik Elektronika Negeri Surabaya, Surabaya.
Purba, Michael. 1995. Buku Pelajaran Kimia Kelas XI. Erlangga. Jakarta.
Putera, Gilang Ananda dan Christian D. H. F. M. 2017. Perancangan Alat Ukur Kadar Padatan Terlarut, Kekeruhan Dan Ph Air Menggunakan Arduino UnoI [Skripsi]. Fakultas Teknik, Universitas Hasanudin Makassar.
Saputra, Akip. 2016. Pengukur Kadar Keasaman dan Kekeruhan Air Berbasis Arduino [Skripsi]. Fakultas Teknik, Universitas Muhamadiyah Surakarta.
Saputro, Tedy Tri. 2017. Mengenal NodeMCU: Pertemuan Pertama https://embeddednesia.com/v1/tutorial-nodemcu-pertemuan-pertama, (accessed on June 28th, 2020).
Sitepu, Jimmi. 2019. Sensor Suhu DS18b20 dengan Arduino dan Menampilkan nya di LCD. https://mikroavr.com/ds18b20-arduino (accessed on June 28th, 2020).
Syefudin, 2019, http://indomaker.com/index.php/2019/04/09/memulai-
menggunakan-blynk-pada-nodemcu (accessed on June 28th, 2020).
Yusuf, Muhammad, Dede. 2016. Alat Pendeteksi Kadar Keasaman Sari Buah, soft drink, Dan Susu Cair menggunakan Sensor pH berbasis Mikrokontroler Arduino Uno Atmega328 [Skripsi]. Politeknik Negeri Sriwijaya.
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