Dewantara, Rayhan Alifa (2023) Desain Skema Pertahanan Sistem Kelistrikan Pulau Lombok Tahun 2022 dan 2023 Berdasarkan Kurva Q-V. Other thesis, Institut Teknologi Sepuluh Nopember.
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Abstract
Kebutuhan listrik pada Pulau Lombok meningkat seiring dengan peningkatan ekonominya. Untuk memenuhi kebutuhan listrik pada Pulau Lombok yang terus bertambah, PT. Perusahaan Listrik Negara (Persero) terus melakukan pembangunan sarana sistem tenaga listrik berupa penambahan pembangkit, saluran transmisi, dan saluran distribusi. Penambahan kapasitas pembangkit pada Pulau Lombok akan menggunakan energi konvensional dan juga Energi Baru Terbarukan (EBT). Sedangkan pada sisi transmisi mengalami perubahan konfigurasi menjadi bentuk loop. Dengan adanya penambahan pembangkit dan perubahan konfigurasi saluran transmisi ini, terdapat kemungkinan gangguan seperti terjadinya trip pada pembangkit yang dapat menyebabkan tegangan dan frekuensi bernilai diluar nilai toleransinya. Hal tersebut dapat menyebabkan sistem kelistrikan mengalami kerusakan hingga pemadaman total. Oleh karenanya pada penelitian ini dilakukan analisis kestabilan transien dan desain skema pertahanan sistem kelistrikan Pulau Lombok dengan mempertimbangkan kurva Q-V untuk mendapatkan besar pelepasan beban yang dapat mempertahankan sistem saat terjadi no-fault trip pembangkit. Dari hasil simulasi aliran daya pada Beban Puncak Malam (BPM) tahun 2022 dan 2023, sistem kelistrikan Pulau Lombok beroperasi dengan tegangan berkisar pada 152 hingga 154 kV. Untuk simulasi kurva Q-V akibat pertumbuhan beban dari tahun 2022 ke tahun 2023 menyebabkan penurunan besar margin daya reaktif dengan bus yang terlemah berada pada GI Sambelia. Dari parameter margin daya reaktif akan diolah untuk menghasilkan faktor pelepasan beban sebagai desain skema pertahanan. Berdasarkan hasil simulasi stabilitas transien pada tahun 2022 dan 2023 diperoleh bahwa desain skema pertahanan dapat mempertahankan sistem tetap stabil dari parameter frekuensi, sudut rotor, serta tegangan.
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The need for electricity on the island of Lombok increases along with the increase in its economy. To meet the growing demand for electricity on Lombok Island, PT. The State Electricity Company (Persero) continues to construct power system facilities in the form of additional generators, transmission lines and distribution channels. The addition of generating capacity on Lombok Island will use conventional energy as well as New Renewable Energy (EBT). Meanwhile, on the transmission side, the configuration changes to form a loop. With the addition of generators and changes in the configuration of this transmission line, there is the possibility of disturbances such as a trip at the generator which can cause the voltage and frequency to be outside their tolerance values. This can cause the electrical system to suffer damage to a total blackout. Therefore, in this study, transient stability analysis and design of the Lombok Island electricity system defense scheme were carried out by considering the Q-V curve to obtain the amount of load shedding that can maintain the system when a generator no-fault trip occurs. From the simulation results of power flow at Night Peak Load (BPM) in 2022 and 2023, Lombok Island's electrical system operates with a voltage ranging from 152 to 154 kV. For the Q-V curve simulation due to load growth from 2022 to 2023 it causes a large decrease in reactive power margin with the weakest bus being at the Sambelia Substation. From the reactive power margin parameter, it will be processed to produce a load shedding factor as a defense scheme design. Based on the transient stability simulation results in 2022 and 2023, it is found that the design of the defense scheme can maintain a stable system from the parameters of frequency, rotor angle, and voltage.
| Item Type: | Thesis (Other) |
|---|---|
| Uncontrolled Keywords: | Transient Stability Analysis, Q-V Curve, Defense Scheme, Analisis Kestabilan Transien, Kurva Q-V, Skema Pertahanan |
| Subjects: | T Technology > TK Electrical engineering. Electronics Nuclear engineering T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK1010 Electric power system stability. Electric filters, Passive. T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK3226 Transients (Electricity). Electric power systems. Harmonics (Electric waves). |
| Divisions: | Faculty of Intelligent Electrical and Informatics Technology (ELECTICS) > Electrical Engineering > 20201-(S1) Undergraduate Thesis |
| Depositing User: | Dewantara Rayhan Alifa |
| Date Deposited: | 27 Jul 2023 01:26 |
| Last Modified: | 27 Jul 2023 01:26 |
| URI: | http://repository.its.ac.id/id/eprint/99067 |
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