Voltage-Sensitive Load Controllers for Voltage Regulation and Increased Load Factor in Distribution Systems

This paper presents a novel controller design for controlling appliances based on local measurements of voltage. The controller finds the normalized voltage deviation accounting for the sensitivity of voltage measurements to appliance state. The controller produces a signal indicating desired power...

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Bibliographic Details
Published in:IEEE transactions on smart grid 2014-09, Vol.5 (5), p.2394-2401
Main Authors: Douglass, Philip J., Garcia-Valle, Rodrigo, Ostergaard, Jacob, Tudora, Octavian Constantin
Format: Article
Language:English
Subjects:
Autonomous demand response
Controllers
demand side
distributed energy resources
Home appliances
Load
Load modeling
Power demand
Reactive power
Voltage control
Voltage measurement
voltage regulation
Water heating
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Summary:This paper presents a novel controller design for controlling appliances based on local measurements of voltage. The controller finds the normalized voltage deviation accounting for the sensitivity of voltage measurements to appliance state. The controller produces a signal indicating desired power consumption which can be mapped to temperature setpoint offsets of thermostat controlled loads. In networks where a lower voltage level corresponds to high system load (and vice versa), this controller acts to regulate voltage and increase the load factor. Simulations are conducted on low- and medium-voltage distribution systems with residential loads including voltage-sensitive water heaters. In low-voltage systems, the results of the simulations show the controller to be effective at reducing the extremes of voltage and increasing the load factor while respecting end-use temperature constraints. In medium-voltage systems, the simulation results show the controller to be effective at reducing voltage fluctuations that occur at the 10-minute time scale.
ISSN:1949-3053
1949-3061
DOI:10.1109/TSG.2014.2318014