Abstract

We report on a real-time demand response experiment with 100 controllable devices. The experiment reveals several key challenges in the deployment of a real-time demand response program, including time delays, uncertainties, characterization errors, multiple timescales, and nonlinearity, which have been largely ignored in previous studies. To resolve these practical issues, we develop and implement a two-level multi-loop control structure integrating feed-forward proportional-integral controllers and optimization solvers in closed loops, which eliminates steady-state errors and improves the dynamical performance of the overall building response. The proposed methods are validated by Hardware-in-the-Loop (HiL) tests.

Full Text
Paper version not known

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
Developing smart and real-time demand response mechanism for residential energy consumers
Shuhui Li ... Dong Zhang
-
Shuhui Li, et. al.Shuhui Li ... Dong Zhang
01 Mar 2014
Plenary talk: Resilience and risk in networked systems
Munther A Dahleh
-
Munther A DahlehMunther A Dahleh
01 Jun 2014
Smart Grid Testbed for Demand Focused Energy Management in End User Environments
Wayes Tushar ... Kristin L Wood
IEEE wireless communications | VOL. 23
Wayes Tushar, et. al.Wayes Tushar ... Kristin L Wood
01 Dec 2016
Real-time demand response with uncertain renewable energy in smart grid
Libin Jiang ... Steven Low
-
Libin Jiang, et. al.Libin Jiang ... Steven Low
01 Sep 2011
View more papers

More From: IEEE Transactions on Smart Grid

Paper Title
Journal
Date
Author
A Coordinated Emergency Response Scheme for Electricity and Watershed Networks Considering Spatio-Temporal Heterogeneity and Volatility of Rainstorm Disasters
Yingping Cao ... Chi Yung Chung
IEEE Transactions on Smart Grid | VOL. 15
Yingping Cao, et. al.Yingping Cao ... Chi Yung Chung
01 Jul 2024
An Earth Fault Diagnosis Method Based on Online Dynamically Calculated Thresholds for Resonant Ground Systems
Jiahao Lin ... Run Jiang
IEEE Transactions on Smart Grid | VOL. 15
Jiahao Lin, et. al.Jiahao Lin ... Run Jiang
01 Jul 2024
Table of Contents
-
IEEE Transactions on Smart Grid | VOL. -
--
01 Jul 2024
Analytical Fault Modeling of Droop-Controlled IIDG and its Cluster
Chongkai Fang ... Longhua Mu
IEEE Transactions on Smart Grid | VOL. 15
Chongkai Fang, et. al.Chongkai Fang ... Longhua Mu
01 Jul 2024
View more papers