Pradana, Aditya Putra (2024) Sistem Kontrol Putaran Motor Penggerak Kincir Aerator Pada Tambak Udang Vaname Di Gunung Anyar Berbasis Fuzzy Logic. Diploma thesis, Institut Teknologi Sepuluh Nopember.
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Abstract
Salah satu jenis udang yang gencar dibudidayakan dan menguntungkan adalah udang vaname. Dalam penunjang budidaya, udang vaname sangatlah bergentung pada beberapa parameter kualitas airnya, seperti suhu, pH, serta kadar oksigen terlarut. Kadar oksigen yang terlarut pada kolam budidaya akan berpengaruh pada laju mineralisasi ammonia, kadar nitrit, nitrat, fosfat dan berpengaruh pada parameter kualitas air seperti suhu, salinitas, pH, TSS, serta kandungan bakteri pada budidaya udang vaname. Diperlukannya penambahan sebuah mode kendali pada putaran motor kincir aerator diharapkan dapat meningkatkan efektifitas kinerja kincir aerator, peningkatan jumlah kadar oksigen yang dibutuhkan oleh udang, serta penerapan teknologi tepat guna pada bidang perikanan. Penelitian ini nantinya juga menganalisis skala kondisi air pada tambak udang vaname yang diadaptasikan pada putaran kincir motor berdasarkan logika fuzzy. Penelitian ini dilaksanakan melalui kerja sama di Tambak Udang Vaname Gunung Anyar, Surabaya.
Hasil pengujian aerator yang telah dilakukan menunjukkan bahwa sistem kendali berbasis logika fuzzy pada aerator tambak udang vaname mampu meningkatkan kadar oksigen terlarut dari 5,8 ppm menjadi 6 ppm dalam waktu 6-7 detik, dengan peningkatan keseluruhan kadar oksigen sebesar 2,74%. Pengujian menunjukkan bahwa kinerja aktuator berubah sesuai dengan role base fuzzy dengan durasi 1 detik, sementara pembacaan sensor TDS memiliki delay sebesar 6 detik. Sistem logika fuzzy juga lebih hemat energi, mengonsumsi 3,05 kWh dibandingkan 9,21 kWh untuk sistem kontinu.
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One type of shrimp that is intensively cultivated and profitable is vaname shrimp. In supporting cultivation, vaname shrimp are very dependent on several water quality parameters, such as temperature, pH and dissolved oxygen levels. Dissolved oxygen levels in cultivation ponds will affect the rate of ammonia mineralization, levels of nitrite, nitrate, phosphate and influence water quality parameters such as temperature, salinity, pH, TSS, and bacterial content in vaname shrimp cultivation. It is hoped that the need to add a control mode to the rotation of the aerator wheel motor can increase the effectiveness of the aerator wheel performance, increase the amount of oxygen levels needed by shrimp, and apply appropriate technology in the fisheries sector. This research will also analyze the scale of water conditions in vaname shrimp ponds which are adapted to motor wheel rotation based on fuzzy logic. This research was carried out through collaboration at the Gunung Anyar Vaname Shrimp Pond, Surabaya.
The results of the aerator tests that have been carried out show that the fuzzy logic-based control system in the vaname shrimp pond aerator is able to increase dissolved oxygen levels from 5.8 ppm to 6 ppm within 6-7 seconds, with an overall increase in oxygen levels of 2.74%. Tests show that the actuator performance changes according to the fuzzy role base with a duration of 1 second, while the TDS sensor reading has a delay of 6 seconds. The fuzzy logic system is also more energy efficient, consuming 3.05 kWh compared to 9.21 kWh for the continuous system.
| Item Type: | Thesis (Diploma) |
|---|---|
| Uncontrolled Keywords: | Aerator berbasis photovoltaic, Kendali motor, Dissolved Oxygen, Logika Fuzzy. =============================== Photovoltaic based aerator, Motor control, Dissolved Oxygen, Fuzzy Logic. |
| Subjects: | T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK3070 Automatic control T Technology > TL Motor vehicles. Aeronautics. Astronautics > TL521.3 Automatic Control |
| Divisions: | Faculty of Vocational > Instrumentation Engineering |
| Depositing User: | Aditya Putra Pradana |
| Date Deposited: | 08 Aug 2024 08:56 |
| Last Modified: | 08 Aug 2024 08:56 |
| URI: | http://repository.its.ac.id/id/eprint/111786 |
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