Aditama, Aldhimas Satria (2014) Menghitung CCT Secara Langsung Dengan Menggunakan Modifiksi Metode Hilangnya Sinkronisasi Pada Sistem Yang Terhubung Ke Bus Infinite. Other thesis, Insititut Teknologi Sepuluh Nopember.
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Abstract
Analisis mengenai kestabilan transien sistem tenaga memegang peranan yang sangat penting dalam menjamin keamanan dan keberlangsungan operasional suatu sistem tenaga listrik. Pada saat terjadi gangguan, rele pengaman akan bekerja untuk membuka circuit breakers dalam waktu sekitar 200-300 ms. Akan tetapi hal ini tidak menjamin sistem akan kembali pada kondisi steady-state. Hal ini disebabkan adanya waktu pemutus kritis / critical clearing time (CCT) pada sistem tenaga listrik. CCT adalah perhitungan batas waktu kritis setelah terjadi gangguan dimana saat terjadi gangguan harus diputus sebelum CCT agar sistem dapat kembali stabil. Apabila gangguan diputus sebelum CCT maka sistem dapat kembali stabil. Namun apabila gangguan diputus lebih dari CCT maka sistem tidak dapat kembali stabil. Dengan metode numerical simulation method nilai CCT yang didapatkan hanya berupa nilai batas stabil dan batas tidak stabil sistem tenaga listrik. Dalam tugas akhir ini akan dihitung nilai CCT pada banyak mesin menggunakan modifikasi metode hilangnya sinkronisasi pada sistem yang terhubung ke bus infinite. Rata-rata waktu untuk menghitung CCT pada sistem 2 generator-9 bus terhubung ke bus infinite tanpa damping adalah 1,4446 detik, numerical simulation method adalah 318,977 detik. Pada sistem 2 generator-9 bus terhubung ke bus infinite dengan damping adalah 1,4826 detik, numerical simulation method adalah 311,998 detik. Pada sistem 5 generator-30 bus terhubung ke bus infinite tanpa damping adalah 2,7272 detik, numerical simulation method adalah 328,827 detik. Pada sistem 5 generator-30 bus terhubung ke bus infinite dengan damping adalah 3,6714 detik, numerical simulation method adalah 331,484 detik.
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Analysis of transient stability of power systems hold a very important role in guaranteeing the security and sustainability of the operations of electric power system. In the event of disturbance, protection relay will work to open the circuit breakers in about 200-300 ms. Unfortunately, this does not guarantee the system will return to steady-state conditions. This is due to the existence of critical clearing time (CCT) on the electricity system. CCT is the calculation of critical time for system to clear disturbance after its occurance. Disturbance should be clearance before the CCT for the system to stabilize. When disturbance was cleared before the CCT, the system can be stabilized. But when disturbance was cleared more than CCT then the system can not be stabilized. With numerical simulation method of the CCT method recovered only be the limit of stable and unstable limit electricity system. In this final project will count the CCT on many machines using a modification of the method loss of synchronizati on on system connected to infinite bus. The average time to calculate the CCT in the system 2-generator 9 bus connected to an infinite bus without damping is 1.4446 seconds, numerical simulation method is 318.977 seconds. At 2 generator-9 system bus connected to an infinite bus with damping is 1.4826 seconds, numerical simulation method is 311.998 seconds. In the 5-generator system bus 30 connected to an infinite bus without damping is 2.7272 seconds, numerical simulation method is 328.827 seconds. In the 5-generator system bus 30 connected to an infinite bus with damping is 3.6714 seconds, numerical simulation method is 331.484 seconds.
| Item Type: | Thesis (Other) |
|---|---|
| Additional Information: | RSE 621.319 21 Adi m-1, 2014 |
| Uncontrolled Keywords: | Analisis Kestabilan Transien, Critical Clearing Time (CCT), Critical Trajectory |
| Subjects: | T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK7871.6 Antennas (Electronics) |
| Divisions: | Faculty of Electrical Technology > Electrical Engineering > 20201-(S1) Undergraduate Thesis |
| Depositing User: | Mr. Marsudiyana - |
| Date Deposited: | 30 Jan 2024 07:31 |
| Last Modified: | 30 Jan 2024 07:31 |
| URI: | http://repository.its.ac.id/id/eprint/105800 |
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