Sitompul, Trigel (2021) APLIKASI IOT UNTUK MEMONITORING PH, KELEMBABAN DAN SUHU TANAH PADA PROSES FITOREMEDIASI IPAL KOMUNAL. Skripsi thesis, Institut Teknologi Nasional Malang.
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Abstract
ABSTRAK Pengolahan limbah cair dikerjakan dalam IPAL ( Instalasi Pengolah Air Limbah ). Dalam operasional IPAL diperlukan data pemantauan kinerja IPAL dari parameter kualitas air limbah seperti pH, suhu, oksigen larut (dissolved oxcygen / DO , daya hantar listrik, TOC ( Total Organic Carbon ), BOD ( Biological Oxcygen Demand ), COD ( Chemical Oxcygen Demand ). Selama ini dalam memonitoring kualitas IPAL dilakukan dengan uji sampel air limbah di laboratorium. Hal ini memerlukan waktu dan biaya yang cukup besar sehingga pemantauan tidak efektif. Hal ini dapat diatasi dengan otomasi sistem monitoring kualitas IPAL. Dalam sistem otomasi sensor yang terpasang akan mengambil nilai data parameter selanjutnya akan ditransmisikan melalui IoT. Hasil monitoring ini ditampilkan melalui komputer yang telah terakses internet. Data hasil monitoring ini operator dapat menentukan tindakan apa yang akan dilakukan untuk mengendalikan proses IPAL. Dikarenakan proses pengambilan data di IPAL tidak memungkinkan karena kondisi pandemi COVID-19 sehingga pengambilan data dilakukan dengan menggunakan tanaman lain yaitu tanaman Lidah Mertua. Sistem monitoring ini menggunakan empat sensor yaitu sensor pH tanah, Kelembaban,pH air dan suhu yang terhubung dengan NodeMcu. Data yang didapatkan dikirimkan ke aplikasi IoT. Dari hasil pengujian alat ini dapat bekerja dengan baik dan mampu menampilkan data pH tanah, kelembaban, pH air dan suhu yang terdapat pada tanaman fitoremediasi pada aplikasi IoT. Kata kunci : IPAL, Monitoring, IoT (Internet of Things ) ABSTRACT Wastewater treatment is carried out in IPAL (Wastewater Treatment Plant). In the operation of WWTP, data for monitoring the performance of WWTP are needed from wastewater quality parameters such as pH, temperature, dissolved oxygen (DO, electrical conductivity), TOC (Total Organic Carbon), BOD (Biological Oxygen Demand), COD (Chemical Oxygen Demand) So far, monitoring the quality of WWTP has been carried out by testing wastewater samples in the laboratory. This requires a lot of time and money so that monitoring is ineffective. This can be overcome by automating the IPAL quality monitoring system. In the installed sensor automation system will take the parameter data value which will then be transmitted via IoT. The monitoring results are displayed on a computer that has internet access. With the data from the monitoring results, the operator can determine what actions to take to control the WWTP process. Because the data collection process at WWTP was not possible due to the COVID-19 pandemic conditions, so data collection was carried out using other plants, namely the In-Law Tongue plant. This monitoring system uses four sensors, namely soil pH, humidity, water pH, and temperature sensors that are connected to NodeMcu. The data obtained is sent to the IoT application. From the test results, this tool can work well and can display data on soil pH, humidity, water pH, and temperature found in phytoremediation plants in IoT applications. Keywords: IPAL, Monitoring, IoT (Internet of Things)
Item Type: | Thesis (Skripsi) |
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Additional Information: | Trigel Sitompul NIM 1912903 |
Uncontrolled Keywords: | IPAL, Monitoring, IoT (Internet of Things ) |
Subjects: | Engineering > Electrical Engineering |
Divisions: | Fakultas Teknologi Industri > Teknik Informatika S1 > Teknik Informatika S1(Skripsi) |
Depositing User: | Ms Nunuk Yuli |
Date Deposited: | 12 Apr 2021 02:52 |
Last Modified: | 12 Apr 2021 02:52 |
URI: | http://eprints.itn.ac.id/id/eprint/5429 |
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