ANALISIS PENGARUH KOMPENSATOR VAR STATIS BERKOMUTASI PAKSA PADA KESTABILAN DINAMIS SISTEM DAYA DENGAN METODE FUZZY LOGIC CONTROLLER

JOHADI, TATANG (2020) ANALISIS PENGARUH KOMPENSATOR VAR STATIS BERKOMUTASI PAKSA PADA KESTABILAN DINAMIS SISTEM DAYA DENGAN METODE FUZZY LOGIC CONTROLLER. S2 thesis, Universitas Mercu Buana Jakarta-Menteng.

[img]
Preview
Text (HALAMAN JUDUL)
1.Halaman Judul.pdf

Download (382kB) | Preview
[img]
Preview
Text (LEMBAR PERNYATAAN)
2.Lembar Pernyataan.pdf

Download (414kB) | Preview
[img]
Preview
Text (LEMBAR PENGESAHAN)
3.Lembar Pengesahan.pdf

Download (205kB) | Preview
[img]
Preview
Text (ABSTRAK)
4.Abstrak .pdf

Download (207kB) | Preview
[img]
Preview
Text (KATA PENGANTAR)
5.Kata Pengantar.pdf

Download (247kB) | Preview
[img]
Preview
Text (DAFTAR ISI)
6.Daftar Isi.pdf

Download (209kB) | Preview
[img]
Preview
Text (DAFTAR GAMBAR)
7.Daftar Gambar.pdf

Download (212kB) | Preview
[img]
Preview
Text (DAFTAR TABEL)
8.Daftar Tabel.pdf

Download (204kB) | Preview
[img] Text (BAB 1)
9.BAB I Pendahuluan.pdf
Restricted to Registered users only

Download (484kB)
[img] Text (BAB 2)
10.BAB II Kajian Pustaka Dan Kerangka Berpikir.pdf
Restricted to Registered users only

Download (739kB)
[img] Text (BAB 3)
11.BAB III Metode Peneliian.pdf
Restricted to Registered users only

Download (670kB)
[img] Text (BAB 4)
12.BAB IV Hasil Dan Pembahasan.pdf
Restricted to Registered users only

Download (548kB)
[img] Text (BAB 5)
13.BAB V Kesimpulan Dan Saran.pdf
Restricted to Registered users only

Download (227kB)
[img] Text (DAFTAR PUSTAKA)
14.Daftar Pustaka.pdf
Restricted to Registered users only

Download (269kB)
[img] Text (LAMPIRAN)
15.Lampiran.pdf
Restricted to Registered users only

Download (2MB)

Abstract

Untuk mengetahui pengaruh kompensator statis pada kestabilan sistem daya dapat dilakukan dengan berbagai macam cara. Dalam penelitian ini, sistem disimulasi dengan memberi gangguan kecil kemudian dilihat responnya terhadap gangguan tersebut. Untuk membedakan adanya pengaruh kompensator, sistem lain yang tidak dilengkapi juga disimulasi dan dilihat responnya. Kedua respon dari masing-masing sistem kemudian dibandingkan. Respon yang dibandingkan di sini adalah perubahan sudut rotor, perubahan kecepatan putaran rotor terhadap waktu, dan perubahan tegangan dalam kompensator. Dari penelitian ini terlihat bahwa respon (perubahan sudut rotor) dari sistem yang dilengkapi kompensator menunjukan adanya redaman dengan penguatan SVC (Kv(SVC)) = 2.216 dan waktu kerja SVC (Tv(SVC)) = 0.01 detik. Sistem yang dilengkapi kompensator dengan kendali fuzzy logic dengan penguatan SVC (Kv(SVC)) = 0,4 respon redamannya lebih cepat selama 1 detik sudah teredam osilasi ± 2%. Nilai koefisien serempak dari sistem SVC negatif (Ks (SVC) = - 0,0029 torsi/rad per satuan) menunjukan kompensasi fasa mendahului (phase leading compensation). Perubahan sudut rotor semakin lama semakin mengecil. Sebaliknya, respon dari sistem yang tidak di lengkapi kompensator cenderung berosilasi terus. Pembahasan pada penelitian ini pada kompensator VSFC-SVC dengan metode Fuzzy Logic controller, sehingga mampu meningkatkan unjuk kerja VSFC-SVC. Kata kunci: VSFC-SVC, Fuzzy logic controller, eigenvalues, perubahan sudut rotor, perubahan kecepatan putaran rotor, dan perubahan tegangan dalam kompensator. To find out the effect of a static compensator on the stability of the power system can be done in various ways. In this study, the system is simulated by giving a small disturbance and then the response to the disorder is seen. To distinguish the influence of compensators, other systems that are not equipped are also simulated and viewed responses. The two responses from each system are then compared. The response compared here is the change in rotor angle, change in rotor rotation speed with time, and change in voltage in the compensator. From this study it can be seen that the response (change in rotor angle) of the system equipped with a compensator shows the attenuation of SVC (Kv (SVC)) = 2,216 and SVC (Tv (SVC)) working time = 0.01 seconds. A system equipped with a compensator with fuzzy logic control with SVC (Kv (SVC)) gain = 0.4 attenuation response faster for 1 second has been damped by ± 2% oscillation. The simultaneous coefficient value of the negative SVC system (Ks (SVC) = - 0.0029 torque / rad per unit) indicates phase leading compensation. Changes in the angle of the rotor increasingly smaller. Conversely, the response of an incomplete compensator system tends to oscillate continuously. The discussion in this study on the VSFC-SVC compensator with the Fuzzy Logic controller method, so as to improve the performance of VSFC-SVC. Keywords: VSFC-SVC, Fuzzy logic controller, eigenvalues, changes in rotor angle, changes in rotor rotation speed, and changes in voltage in the compensator.

Item Type: Thesis (S2)
Call Number CD: CDT-554-20-046
Call Number: T-54-MTE-20-036
NIM/NIDN Creators: 55417120020
Uncontrolled Keywords: VSFC-SVC, Fuzzy logic controller, eigenvalues, perubahan sudut rotor, perubahan kecepatan putaran rotor, dan perubahan tegangan dalam kompensator, VSFC-SVC, Fuzzy logic controller, eigenvalues, changes in rotor angle, changes in rotor rotation speed, and changes in voltage in the compensator.
Subjects: 600 Technology/Teknologi > 620 Engineering and Applied Operations/Ilmu Teknik dan operasi Terapan > 621 Applied Physics/Fisika terapan
Divisions: Pascasarjana > Magister Teknik Elektro
Depositing User: ORYZA LUVITA
Date Deposited: 22 Feb 2022 02:20
Last Modified: 18 Jun 2022 06:50
URI: http://repository.mercubuana.ac.id/id/eprint/56514

Actions (login required)

View Item View Item