Abstract
| Original language | English |
|---|---|
| Title of host publication | Proceedings of the EPE Joint Wind Energy and T&D Chapters Seminar |
| Publisher | EPE Association |
| Publication date | 2012 |
| Publication status | Published - 2012 |
| Event | EPE Joint Wind Energy and T&D Chapters Seminar - Duration: 28 Jun 2012 → 29 Jun 2012 |
Conference
| Conference | EPE Joint Wind Energy and T&D Chapters Seminar |
|---|---|
| Period | 28/06/2012 → 29/06/2012 |
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Generic 12-Bus Test System for Wind Power Integration Studies. / Adamczyk, Andrzej Grzegorz; Altin, Müfit; Göksu, Ömer; Teodorescu, Remus; Iov, Florin.
Proceedings of the EPE Joint Wind Energy and T&D Chapters Seminar. EPE Association, 2012.Research output: Contribution to book/anthology/report/conference proceeding › Article in proceeding › Research › peer-review
TY - GEN
T1 - Generic 12-Bus Test System for Wind Power Integration Studies
AU - Adamczyk, Andrzej Grzegorz
AU - Altin, Müfit
AU - Göksu, Ömer
AU - Teodorescu, Remus
AU - Iov, Florin
PY - 2012
Y1 - 2012
N2 - High wind power penetration levels into power systems requires an appropriate power system model when assessing impact on the overall system stability. The model should capture the wide range of dynamics related to the wind integration studies, such as voltage control, synchronizing power control, inertial response, frequency control, damping of electromechanical oscillations, balanced and unbalanced fault management, etc. Hence, the power system components: conventional power plants with controls, transmission lines, transformers and loads should be represented accurately to achieve realistic power system characteristics. Additionally, the power system model should be simple and computationally manageable in order to simulate multiple scenarios with different control parameters in a reasonable time. In this paper, a generic power system model is presented in order to comprehend the wind integration studies with different penetration scenarios.
AB - High wind power penetration levels into power systems requires an appropriate power system model when assessing impact on the overall system stability. The model should capture the wide range of dynamics related to the wind integration studies, such as voltage control, synchronizing power control, inertial response, frequency control, damping of electromechanical oscillations, balanced and unbalanced fault management, etc. Hence, the power system components: conventional power plants with controls, transmission lines, transformers and loads should be represented accurately to achieve realistic power system characteristics. Additionally, the power system model should be simple and computationally manageable in order to simulate multiple scenarios with different control parameters in a reasonable time. In this paper, a generic power system model is presented in order to comprehend the wind integration studies with different penetration scenarios.
M3 - Article in proceeding
BT - Proceedings of the EPE Joint Wind Energy and T&D Chapters Seminar
PB - EPE Association
ER -