Fayumi, Fachry Azca Haidar (2024) Rekonfigurasi Dinamis pada Smart Grid Mempertimbangkan Stabilitas Tegangan dan Integrasi Sumber Energi Terdistribusi Menggunakan Metode SPSO-IPOPT. Masters thesis, Institut Teknologi Sepuluh Nopember.
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Abstract
Sistem distribusi radial memiliki peranan yang penting dalam sistem tenaga listrik karena berperan dalam memberikan suplai daya ke konsumen. Muncul beberapa tantangan dan permasalahan pada sistem distribusi, misalnya berupa meningkatnya permintaan daya listrik, pola beban yang berbeda dari berbagai jenis konsumen, semakin meluasnya Distributed Generation (DG), sehingga menyebabkan nilai kestabilan tegangan yang rendah, kerugian daya yang tinggi dan biaya operasi yang tinggi. Rekonfigurasi jaringan menjadi salah satu solusi yang efektif untuk menyelesaikan permasalahan ini. Pada penelitian ini akan berfokus pada penerapan rekonfigurasi dinamis untuk meminimalkan biaya operasi, meningkatkan kestabilan tegangan, meminimalkan load shedding dan jumlah switching. Optimal Power Flow (OPF) dengan metode Interior Point Optimization (IPOPT) digunakan untuk mendapatkan biaya operasi dan Selective Particle Swarm Optimization SPSO digunakan untuk melakukan rekonfugurasi dinamis. Sistem distribusi IEEE 33-bus termodifikasi digunakan sebagai sistem pengujian dalam penelitian ini. Dari hasil simulasi diperoleh bahwa dengan melakukan rekonfigurasi dinamis, maka load shedding dapat diantisipasi karena rekonfigurasi dinamis mampu mengakomodir adanya gangguan putusnya saluran sehingga konsumen tetap teraliri daya listrik. Load shedding pada sistem hasil rekonfigurasi diperoleh sebesar 0.328 W dan 2.003 VAR. Nilai deviasi VSI juga mengalami perbaikan setelah rekonfigurasi dinamis dilakukan dengan reduksi sebesar 24.18% atau menjadi 37.640. Selain itu, perbaikan juga terjadi di parameter biaya operasi yang berkurang sebesar 20.67% atau menjadi $2654.746. Hasil simulasi ini menunjukkan bahwa rekonfigurasi dinamis dengan metode SPSO-IPOPT pada sistem distribusi selain mampu menjaga agar semua konsumen tetap teraliri daya, juga memperbaiki parameter sistem distribusi yaitu VSI dan biaya operasi.
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Radial distribution systems play a crucial role in the electrical power system by supplying power to consumers. Several challenges and issues arise in distribution systems, such as increasing power demand, diverse load patterns from various consumer types, the growing prevalence of Distributed Generation (DG), leading to low voltage stability, high power losses, and operational costs. Network reconfiguration is one effective solution to address these issues. This research focuses on dynamic reconfiguration to minimize operational costs, enhance voltage stability, minimize load shedding, and the number of switching operations. Optimal Power Flow (OPF) using Interior Point Optimization (IPOPT) method is utilized to obtain operational costs, and Selective Particle Swarm Optimization (SPSO) is employed for dynamic reconfiguration. The IEEE 33-bus distribution system is used as the testing system in this study. Simulation results show that dynamic reconfiguration anticipates load shedding by accommodating disturbances such as line outages, ensuring continuous power supply to consumers. Load shedding after dynamic reconfiguration is found to be 0.328 W and 2.003 VAR. The deviation in Voltage Stability Index (VSI) is also improved post reconfiguration, reduced by 24.18% to 37.640. Furthermore, there's a reduction in operational costs by 20.67% to $2654.746. These simulation results demonstrate that dynamic reconfiguration using the SPSO-IPOPT method not only ensures continuous power supply to all consumers but also improves distribution system parameters such as VSI and operational costs.
| Item Type: | Thesis (Masters) |
|---|---|
| Uncontrolled Keywords: | dynamic reconfiguration of distribution networks, voltage stability index, optimal power flow, interior point optimization, selective particle swarm optimization, rekonfigurasi dinamis jaringan distribusi, voltage stability index, optimal power flow, interior point optimization, selective particle swarm optimization. |
| Subjects: | T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK1007 Electric power systems control |
| Divisions: | Faculty of Intelligent Electrical and Informatics Technology (ELECTICS) > Electrical Engineering > 20101-(S2) Master Thesis |
| Depositing User: | Fachry Azca Haidar Fayumi |
| Date Deposited: | 29 Jul 2024 02:15 |
| Last Modified: | 29 Jul 2024 02:15 |
| URI: | http://repository.its.ac.id/id/eprint/109396 |
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