Consumer appliance-level load shedding optimisation for real-time application

Abstract

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Load shedding (LS) is implemented by distribution utilities (DUs) in addressing power supply insufficiency problems to avoid DU system damages. This is commonly implemented by the installation of LS relays in every DU feeder. However, in either scheduled or unscheduled supply disruptions, a huge amount of unnecessary de-loading is taking place in a feeder level LS implementation. In addition, the consumers connected to a de-loaded feeder are in total blackout, that is, consumers have no choice over which appliances to spare from being de-loaded. This study proposes an LS implementation that replaces feeder-level de-loading by a finer consumer-appliance-level de-loading and allows consumers to have some control over their de-loading. In this method, consumers can set an appliance priority level to their selected connected loads at a given time, to avoid a total blackout. Furthermore, to deal with the enormous data involved in this proposed method, both centralised and distributed optimisation approaches are employed to expedite the system processing response. Simulations are conducted to verify the proposed method's functionality. Lastly, economic analysis is done to assess the proposed method's viability.

Keywords

• demand side management
• domestic appliances
• power consumption
• load shedding
• optimisation
• unscheduled supply disruptions
• scheduled supply disruptions
• feeder level ls implementation
• du feeder
• ls relays
• du system damages
• power supply insufficiency problems
• distribution utilities
• real-time application
• consumer appliance-level load
• centralised distributed optimisation approaches
• selected connected loads
• appliance priority level
• finer consumer-appliance-level
• feeder-level
• total blackout
• de-loaded feeder