Abstract
With the gradually widely usage of the air conditioning (AC) loads in developing countries, the urban power grid load has swiftly increased over the past decade. Especially in China, the AC load has accounted for over 30% of the maximum load in many cities during summer. This paper proposes a scheme of constructing a virtual peaking unit (VPU) by public buildings’ cool storage central AC (CSCAC) systems and non-CSCAC (NCSCAC) systems for the day-ahead power network dispatching (DAPND). Considering the accumulation effect of different meteorological parameters, a short term load forecasting method of public building’s central AC (CAC) baseline load is firstly discussed. Then, a second-order equivalent thermal parameters model is established for the public building’s CAC load. Moreover, the novel load reduction control strategies for the public building’s CSCAC system and the public building’s NCSCAC system are respectively presented. Furthermore, based on the multiple-rank control strategy, the model of the DAPND with the participation of a VPU is set up. The VPU is composed of large-scale regulated public building’s CAC loads. To demonstrate the effectiveness of the proposed strategy, results of a sample study on a region in Nanjing which involves 22 public buildings’ CAC loads are described in this paper. Simulated results show that, by adopting the proposed DAPND scheme, the power network peak load in the region obviously decreases with a small enough deviation between the regulated load value and the dispatching instruction of the VPU. The total electricity-saving amount accounts for 7.78% of total electricity consumption of the VPU before regulation.
Highlights
In China, with the development of social economy and the raise of people’s living standard, the total grid load is increasing rapidly and the peak-valley difference of grid load is widening continuously
Due to the large proportion of air conditioning (AC) load of the total grid load in summer, it is an effective way for releasing the conflict between power supply and power demand by constructing the large-scale AC loads as a virtual peaking unit (VPU) for load shedding in peak load period in summer
Notes: pU,i is the total baseline load of the VPU before regulation in the regulation period of i; pt,U,i is the total load of the VPU after regulation in the regulation period of i; Psave,i is the electricity-saving amount of the VPU during the regulation period of i
Summary
In China, with the development of social economy and the raise of people’s living standard, the total grid load is increasing rapidly and the peak-valley difference of grid load is widening continuously. Extensive research work has been performed to discuss the modeling, control strategies and schedulable potential of AC loads for peak load reduction in the past decades [1,2,3,4,5,6,7,8,9,10,11,12,13,14,15]. Based on the proposed load reduction control strategies for the CAC systems, the strategy of constructing a VPU by large-scale public building’s non-cool storage CAC (NCSCAC) and cool storage CAC (CSCAC) loads for dayahead power network dispatching (DAPND) will mainly be studied in this paper.
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