Mahdiyah, Fariza Hasna (2024) Monitoring Oksigen Terlarut Menggunakan Sensor Dissolved Oxygen (DO) Pada Aerator Berbasis Photovoltaic Di Tambak Udang Vaname, Gunung Anyar, Surabaya. Diploma thesis, Institut Teknologi Sepuluh Nopember.
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Abstract
Aerator pada tambak udang digunakan sebagai aerasi guna membantu pernapasan pada udang. Aerator merupakan salah satu cara untuk membantu dalam proses peningkatan konsentrasi oksigen terlarut didalam air. Dengan konsentrasi oksigen yang sangat rendah (20,95%) di udara, aerasi diperlukan untuk meningkatkan efisiensi air, karena kemampuan untuk mendifusikan oksigen ke dalam air bergantung pada keseimbangan tekanan oksigen di dalam air dan di atmosfer. Aerator berbasis photovoltaic dibuat untuk menghasilkan energi matahari dari gelembung udara dengan menyuplai oksigen tambahan ke dalam air tambak. Hal ini juga mendukung keberlanjutan energi Sustainable Development Goals (SDGs) nomor 7, yaitu memastikan akses energi yang terjangkau, andal, berkelanjutan, dan modern untuk semua. Saat ini penambak udang di Desa Gunung Anyar, Surabaya masih menggunakan metode manual untuk memantau kualitas air tambak. Hal ini akan memakan waktu lebih lama untuk mengetahui kondisi oksigen air tambak sehingga dapat berdampak pada kualitas Udang Vaname tersebut. Maka dari itu dibuatlah monitoring oksigen terlarut pada air tambak yang bertujuan untuk memudahkan petambak untuk melakukan pemantauan dari jarak jauh secara real-time dengan hasil error pembacaan sensor Dissolved Oxygen 1,4% dan akurasi pembacaan nya sebesar 98,6%.
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Aerators in shrimp ponds are used as aeration to help breathing in shrimp. Aerators are one way to assist in the process of increasing the concentration of Dissolved Oxygen in the water. With very low oxygen concentrations (20.95%) in the air, aeration is necessary to improve water efficiency, as the ability to diffuse oxygen into the water depends on the balance of oxygen pressure in the water and in the atmosphere. A photovoltaic-based aerator was created to generate solar energy from air bubbles by supplying additional oxygen into the pond water. This also supports the energy sustainability Sustainable Development Goals (SDGs) number 7, which is to ensure access to affordable, reliable, sustainable and modern energy for all. Currently, shrimp farmers in Gunung Anyar Village, Surabaya still use manual methods to monitor pond water quality. This will take longer to find out the condition of pond water oxygen so that it can have an impact on the quality of the Vaname Shrimp. Therefore, Dissolved Oxygen monitoring in pond water is made which aims to make it easier for farmers to monitor remotely in real-time with the results of the Dissolved Oxygen sensor reading error of 1.6% and its reading accuracy of 98.6%.
Item Type: | Thesis (Diploma) |
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Uncontrolled Keywords: | SDGs, Aerator, Photovoltaic, Kualitas Oksigen, Monitoring Sistem SDGs, Aerator, Photovoltaic, Oxygen Quality, Monitoring System |
Subjects: | T Technology > TD Environmental technology. Sanitary engineering > TD883 Air quality management. T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK1087 Photovoltaic power generation |
Divisions: | Faculty of Vocational > Instrumentation Engineering |
Depositing User: | Fariza Hasna Mahdiyah |
Date Deposited: | 08 Aug 2024 01:23 |
Last Modified: | 08 Aug 2024 01:23 |
URI: | http://repository.its.ac.id/id/eprint/110903 |
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