Abstract
A novel short-term state forecasting-based optimal power flow (OPF) approach for distribution system voltage regulation is proposed in this paper. An extreme learning machine (ELM) based state forecaster is developed to accurately predict system states (voltage magnitudes and angles) in the near future. Based on the forecast system states, a dynamically weighted three-phase AC OPF problem is formulated to minimize the voltage violations with higher penalization on buses which are forecast to have higher voltage violations in the near future. By solving the proposed OPF problem, the controllable resources in the system are optimally coordinated to alleviate the potential severe voltage violations and improve the overall voltage profile. The proposed approach has been tested in a 12-bus distribution system and simulation results are presented to demonstrate the performance of the proposed approach.
Original language | American English |
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Number of pages | 7 |
State | Published - 2017 |
Event | IEEE Eighth Conference on Innovative Smart Grid Technologies (IEEE ISGT 2017) - Arlington, Virginia Duration: 23 Apr 2017 → 26 Apr 2017 |
Conference
Conference | IEEE Eighth Conference on Innovative Smart Grid Technologies (IEEE ISGT 2017) |
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City | Arlington, Virginia |
Period | 23/04/17 → 26/04/17 |
NREL Publication Number
- NREL/CP-5D00-68114
Keywords
- extreme learning machine
- optimal power flow
- short-term state forecasting
- voltage regulation