Abstract
Determining and forecasting the load behavior in distribution systems are very important in both operational and planning stages. Increased penetration of thermostatically-controlled loads such as air-conditioners, water heaters, heat pumps, etc. has resulted in many investigations on how to determine an accurate dynamic of these loads. Thermostatically-controlled loads are also a candidate for the direct load control because of their thermal storage capabilities. In this paper, a load model based on stochastic difference equation is used to study the effects of the load parameters and the direct load control actions. Stochastic difference suitable for the computer analysis and is very simple to implement. By using this model, a Monte Carlo simulation is run for an example system. The effects of load parameter dispersion and different load actions are analyzed. The distribution of house temperatures is studied for control actions. The results for the load parameter dispersion and the direct load control actions on aggregated load for the example system are given and a discussion based on the results is provided in the paper.
Original language | English |
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Title of host publication | POWERCON 1998 - 1998 International Conference on Power System Technology, Proceedings |
Publisher | Institute of Electrical and Electronics Engineers Inc. |
Pages | 280-284 |
Number of pages | 5 |
ISBN (Electronic) | 0780347544, 9780780347540 |
DOIs | |
Publication status | Published - 1998 |
Event | 1998 International Conference on Power System Technology, POWERCON 1998 - Beijing, China Duration: 18 Aug 1998 → 21 Aug 1998 |
Publication series
Name | POWERCON 1998 - 1998 International Conference on Power System Technology, Proceedings |
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Volume | 1 |
Conference
Conference | 1998 International Conference on Power System Technology, POWERCON 1998 |
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Country/Territory | China |
City | Beijing |
Period | 18/08/98 → 21/08/98 |
Bibliographical note
Publisher Copyright:© 1998 IEEE.
Keywords
- Direct Load Control
- Distribution Systems
- Load Parameter Dispersion
- Physically-based Load Model