Enhanced macro model for packetized control of thermostatic loads
Hassan, Mohammad
Hassan, Mohammad
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Abstract
Demand response has become a critical tool for enhancing power grid resilience amid increasing renewable generation variability. Ensemble control of residential thermostatic loads shows signif- icant promise as a scalable demand response strategy. However, co-optimizing customer comfort with grid objectives remains a key challenge. Effective strategies require accurate aggregate load modeling to co-optimize grid and consumer needs. This work enhances a state-of-the-art Pack- etized Energy Management model, improving flexibility for thermostatically controlled loads. The extended framework achieves superior reference tracking and higher PJM performance scores and better customer quality of service, enabling more reliable demand response.
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Date
2025-06-02
Student Status
Graduate
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Poster Presentation
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Electrical Engineering
College/School
College of Engineering and Mathematical Sciences
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Engineering and Math Science