Abstract
The integration of large-scale renewable energy poses great challenges for the operation of power system because of its increased frequency fluctuations. More load frequency control (LFC) resources are demanded in order to maintain a stable system with more renewable energy injected. Unlike the costly LFC resources on generation side, the thermostatically controlled loads (TCLs) on the demand side become an attractive solution on account of its substantial quantities and heat-storage capacity. It generally contains air conditioners (ACs), water heaters and fridges. In this paper, the supplementary LFC is extracted by the modeling and controlling of aggregated ACs. We first present a control framework integrating the supplementary LFC with the traditional LFC. Then, a change-time-priority-list method is proposed to control power output taking into account customers’ satisfaction. Simulations on a single-area power system with wind power integration demonstrate the effectiveness of the proposed method. The impact of ambient temperature changes and customer preferences on room temperature is also involved in the discussion. Results show that the supplementary LFC provided by ACs could closely track the LFC signals and effectively reduce the frequency deviation.
Highlights
With fossil energy running out, the power system has installed a large amount of generation from renewable energy sources such as wind power generation and photovoltaic generation [1,2]
One prominent problem is that the increased frequency fluctuation demands highly on load frequency control (LFC) resources to balance supply and demand at all times [3,4]
We present a change-time-priority-list method for dispatching a collection of air conditioners (ACs) for supplementary load frequency control and smoothing the frequency fluctuations caused by wind power integration
Summary
With fossil energy running out, the power system has installed a large amount of generation from renewable energy sources such as wind power generation and photovoltaic generation [1,2]. Frequency in the power system is usually controlled by adjusting the generation in response to changes in the load [5,6] This method would make the regulating generators diverge from the optimal operation point and result in low efficiencies and short service life. We present a change-time-priority-list method for dispatching a collection of ACs for supplementary load frequency control and smoothing the frequency fluctuations caused by wind power integration.
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