Ramadhan, Salman Fakhri (2023) Pengaruh Pencampuran Nanopartikel Konduktif (Fe3O4) Dengan Nanopartikel Isolatif (Al2O3) Pada Minyak Mineral Terhadap Tegangan Tembus AC. Other thesis, Institut Teknologi Sepuluh Nopember.
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Abstract
Pada studi ini dilakukan pengujian tegangan tembus terhadap minyak mineral yang dicampurkan dengan dua nanopartikel yang berbeda, yaitu Al2O3 dan Fe3O4. Pengujian tersebut dilakukan untuk mengetahui pengaruh percampuran nanopartikel terhadap tegangan tembus minyak Mineral. Sebelum melakukan pengujian tegangan tembus, pengujian Particle Size Analyzer (PSA) dilakukan untuk mengetahui homogenitas dari nanofluida tersebut. Data tegangan tembus kemudian dianalisis menggunakan probabilitas Weibull. Setelah pengujian tegangan tembus selesai, konduktivitas elektrik dari nanofluida juga diuji untuk mengetahui pengaruh nanopartikel terhadap konduktivitas elektrik larutan. Tiga pengujian tersebut dilakukan untuk pengendapan 1 hari dan 7 hari. Pengujian PSA menunjukkan bahwa larutan mengalami pengendapan dengan melihat Zeta Average atau Z-Average yang mengalami penurunan. Meskipun demikian, larutan tetap terbilang homogen karena hasil dari pengujian PSA memiliki Polidisperitas indeks (Pdi) di bawah 1. Untuk pengujian tegangan tembus, nanopartikel Al2O3 mampu meningkatkan tegangan tembus dari minyak Mineral yang awalnya 24,896 kV menjadi 47,44 kV dengan konsentrasi 0,05 g/L. Angka tersebut meningkat 90,55%. Sedangkan ketika dicampurkan dengan nanopartikel Al2O3 dan Fe3O4 tegangan tembus dari minyak Mineral meningkat menjadi 51,93 kV atau meningkat hingga 108,58%. Berdasarkan pengujian konduktivitas elektrik yang telah dilakukan, penambahan nanopartikel tidak mempengaruhi nilai konduktivitas elektrik dari minyak mineral secara signifikan. Hal tersebut didukung dengan hasil pengujian konduktivitas elektik yang memiliki perbedaan tidak signifikan. Selain itu, besaran konduktivitas berada dalam skala yang kecil yaitu 10-4. ===================================================================================================================================
In this study, the breakdown voltage was tested on mineral oil mixed with two different nanoparticles, namely Al2O3 and Fe3O4. The test was carried out to determine the effect of
mixing nanoparticles on the breakdown voltage of mineral oil. Before carrying out the breakdown voltage test, a Particle Size Analyzer (PSA) test was carried out before the
breakdown voltage test to determine the homogeneity of the nanofluid. The breakdown voltage data is then analyzed using Weibull probability. After the breakdown voltage test was
completed, the electrical conductivity of the nanofluid was also tested to determine the nanoparticles effect on the solution's electrical conductivity. The three tests were carried out for 1 day and 7 day deposition. The PSA test shows that the solution has precipitated by looking at
the Zeta Average or Z-Average, which has decreased. Even so, the solution remained relatively homogeneous because the PSA test results had a polydispersity index (Pdi) below 1. For the
breakdown voltage test, Al2O3 nanoparticles were able to increase the breakdown voltage of
Mineral oil, which was initially 24,896 kV to 47,44 kV with a concentration of 0.05 g/l. This figure increased by 90,55%. Meanwhile, when mixed with Al2O3 and Fe3O4 nanoparticles, the breakdown voltage of mineral oil increased to 51,93 kV or up to 108,58%. Based on the
electrical conductivity tests that have been carried out, the addition of nanoparticles does not significantly affect the electrical conductivity value of mineral oil. This is supported by the results of the electrical conductivity test, which has no significant difference. In addition, the
conductivity quantity is on a small scale, namely 10-4.
| Item Type: | Thesis (Other) |
|---|---|
| Uncontrolled Keywords: | Fe3O4, Al2O3, Mineral Oil Insulation, Breakdown Voltage, Fe3O4, Al2O3, Mineral Oil Insulation, Breakdown Voltage |
| Subjects: | T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK2551 Electric transformers. T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK3401 Insulation and insulating materials T Technology > TP Chemical technology > TP248 Nanogels. Nanoparticles. |
| Divisions: | Faculty of Intelligent Electrical and Informatics Technology (ELECTICS) > Electrical Engineering > 20201-(S1) Undergraduate Thesis |
| Depositing User: | Salman Fakhri Ramadhan |
| Date Deposited: | 27 Jul 2023 08:52 |
| Last Modified: | 27 Jul 2023 08:52 |
| URI: | http://repository.its.ac.id/id/eprint/99669 |
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