Kalahari, Bintang (2023) Rancang Bangun Waste Water Monitoring System Untuk Pemantauan Limbah Pada Industri Tekstil. Other thesis, Institut Teknologi Sepuluh Nopember.
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Abstract
Masalah yang kerap dialami oleh Badan Lingkungan Hidup salah satunya adalah pengawasan kualitas limbah industri. Permasalahan tersebut berasal dari monitoring air limbah secara manual dan mahalnya biaya uji tes laboratorium untuk setiap variabel fisis pada limbah.
Sistem yang dibuat bertujuan untuk mengimplementasikan sistem monitoring air limbah dengan mempertimbangkan keadaan lingkungan dan teknologi. Oleh karena itu, untuk solusi masalah tersebut dibutuhkan real time sistem monitoring kualitas air limbah. Pada sistem monitoring air limbah ini menggunakan 5 jenis sensor untuk mengukur kualitas air limbah seperti sensor pH, sensor ORP, sensor temperatur, sensor TDS dan sensor warna RGB. Sensor tersebut akan menampilkan data pengukuran secara offline melalui LCD pada panel box serta ditampilkan secara online melalui website. Pengujian sensor pH didapatkan nilai eror 1,41% sehingga nilai akurasi sebesar 98,59%. Pengujian sensor ORP didapatkan nilai eror 1,3% sehingga nilai akurasi sebesar 98,7%. Pengujian sensor Temperatur I didapatkan nilai eror 0,24% sehingga nilai akurasi sebesar 99,76%. Pengujian sensor TDS didapatkan nilai eror 1,07% sehingga nilai akurasi sebesar 98,93%. Pengujian sensor Temperatur II didapatkan nilai eror 1,31% sehingga nilai akurasi sebesar 98,69%. Sensor warna RGB divalidasi menggunakan spektrometer untuk mengukur warna dari variasi konsentrasi limbah remazol B. Sesuai dengan hukum Lambert-Beer, bahwa nilai absorbansi linier dengan konsentrasi.Artinya sensor warna RGB valid untuk digunakan. Pada sistem monitoring air limbah berbasis website server ini terdapat delay penampilan data antara LCD dengan website sebesar 2 detik. Hal ini merupakan keunggulan pengiriman data melalui web server yaitu minim dengan traffic jaringan serta data security yang lebih aman daripada menggunakan website IoT third party.
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The problems often experienced by the Environmental Agency is monitoring the quality of industrial waste. The problem comes from manual monitoring of wastewater and the high cost of laboratory tests for each physical variable in the waste. This system aims to implement a wastewater monitoring system by considering the state of the environment and technology. Therefore, for the solution of these problems, a real time wastewater quality monitoring system is needed. This wastewater monitoring system uses 5 types of sensors to measure the quality of wastewater such as pH sensors, ORP sensors, temperature sensors, TDS sensors and RGB color sensors. The sensor will display measurement data offline via LCD on the panel box and displayed online via the website. Testing the pH sensor obtained an error value of 1.41% with value 98.59%. ORP sensor testing obtained an error value of 1.3% with value 98.7%. Temperature I sensor test obtained an error value of 0.24% with value 99.76%. TDS sensor testing obtained an error value of 1.07% with value 98.93%. Testing the Temperature II sensor obtained an error value of 4.9% with value 95.1%. The RGB color sensor is validated using a spectrometer to measure the color of the variation in remazol B waste concentration. In accordance with the Lambert-Beer law, that the absorbance value is linear with concentration, meaning that the RGB color sensor is valid for use. In this server-based of wastewater monitoring system, has delay between the LCD and the website of 2 seconds. The advantage of sending data via a web server, has minimal with network traffic and data security which more secure than using a third party IoT website.
Item Type: | Thesis (Other) |
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Uncontrolled Keywords: | Limbah Cair, Sistem Monitoring, Tekstile, Website, Waste Water, Monitoring System, Textile, Website |
Subjects: | T Technology > TD Environmental technology. Sanitary engineering > TD890 Global Environmental Monitoring System T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK5102.9 Signal processing. T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK5105.543 Routers (Computer networks) T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK5105.585 TCP/IP (Computer network protocol) T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK7871.674 Detectors. Sensors |
Divisions: | Faculty of Vocational > Instrumentation Engineering |
Depositing User: | Kalahari Bintang |
Date Deposited: | 28 Jul 2023 02:33 |
Last Modified: | 28 Jul 2023 02:33 |
URI: | http://repository.its.ac.id/id/eprint/100665 |
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