Prakoso, Muhammad Agung (2024) Sistem monitoring true power, reactive power, dan frekuensi simulasi turbin angin menggunakan iot dengan basis jaringan HTTP. Other thesis, Institut Teknologi Sepuluh Nopember.
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Abstract
Era Industri 4.0 merupakan periode pertumbuhan industri untuk beradaptasi dengan teknologi baru dengan Internet of Things (IoT) yang mengusung konsep fleksibilitas, efisiensi, hingga meningkatkan produktivitas. Penelitian ini dilakukan untuk memudahkan auditing dan accounting pada wind turbine simulator. Upaya yang dilakukan yaitu membangun sistem monitoring menggunakan IoT berbasis HTTP untuk pembacaan daya aktif, daya reaktif pada electromotor dan daya aktif, daya reaktif dan frekuensi pada alternator, pengaturan frekuensi electromotor yaitu 10 Hz saat terkoneksi menggunakan IoT dan 5 Hz tidak terkoneksi dengan IoT. Hasil penilitan ini didapatkan bahwa sistem IoT mampu membaca nilai sensor dengan ketelitian 0,8056 mV/ bit dengan input transducer yaitu 1 mA dan 4 - 20 mA. Hasil rata rata
keluaran daya aktif, reaktif electromotor saat 10 Hz menggunakan IoT yaitu 7062 Watt, 464 VA - Reactive, dan alternator 49 Wat daya aktif, 148 VA - R daya reaktif dan -22,5 Hz pada frekuensi alternator. Hasil rata rata keluaran daya aktif, reaktif electromotor saat 5 Hz tanpa menggunakan IoT yaitu 7489 Watt, 2550 VA - Reactive, dan alternator 54 Watt daya aktif, 142 VA - R daya reaktif dan 5,16 Hz pada frekuensi alternator.
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The Industrial Era 4.0 is a period of growth where industry must be able to adapt to new technology with the Internet of Things (IoT) which carries the concept of detail, efficiency, and increasing productivity. This research was carried out to facilitate auditing and accounting
on wind turbine simulators. The efforts made are to build a monitoring system using HTTP based IoT to read active power, reactive power on electric motors and active power, reactive power and frequency on alternators, for gathering data, frequency of an electric motors is set at 10 Hz when connected using IoT and 5 Hz when not connected to IoT. The results of this research show that the IoT system is able to read sensor values with an accuracy of 0,8056 mV/bit with a transducer input of 1 mA and 4 - 20 mA and the average output of active power, reactive electric motors at 10 Hz using IoT is 7062 Watt, 464 VA - Reactive, and alternator 49 VA active power, 148 VA - R reactive power and -22.5 Hz at alternator frequency. The average active and reactive power output of the electromotor at 5 Hz without using IoT is 7489 Watt, 2550 VA - Reactive, and the alternator is 54 VA active power, 142 VA - R reactive power and 5.16 Hz at the alternator frequency.
| Item Type: | Thesis (Other) |
|---|---|
| Uncontrolled Keywords: | IoT, HTTP, Daya Aktif, Daya Reaktif, Frekuensi, Electromotor, Alternator, True Power, Reactive Power, Frequency |
| Subjects: | T Technology > T Technology (General) |
| Divisions: | Faculty of Industrial Technology and Systems Engineering (INDSYS) > Physics Engineering > 30201-(S1) Undergraduate Thesis |
| Depositing User: | Muhammad Agung Prakoso |
| Date Deposited: | 02 Jan 2025 01:11 |
| Last Modified: | 02 Jan 2025 01:11 |
| URI: | http://repository.its.ac.id/id/eprint/116091 |
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