Abstract
As the major electricity consumers worldwide, buildings can play an important role for power balance of smart grid through demand response (DR). Demand side-based control and supply side-based control are two typical types of DR measures when using centralized building air-conditioning systems for DR. For demand side-based control, the major disadvantage is that the response speed is generally too slow to allow buildings providing an immediate power reduction for the smart grid. For supply side-based control, the response speed is fast enough while it may cause control disorder to the whole system and uneven indoor temperature increase among different zones. In order to overcome above disadvantages, we proposed a novel DR method for building air-conditioning systems, which combines both the demand side-based and supply side-based control simultaneously. It consists of two major steps. First, some running chillers will be shut down to provide an immediate power reduction once urgent power reduction requests from smart grids are received by buildings. Second, the indoor air temperature set-points will be adjusted stepwise based on an “incremental schedule” to achieve a uniformly indoor temperature rise among all concerned zones/rooms. By implementing such two steps, an immediate power reduction is achieved while minimizing the uneven sacrifice of thermal comfort among different occupants. Two new performance indexes are proposed to evaluate the thermal comfort performance of DR methods. The proposed DR method is implemented and tested as case study in a virtual building dynamically simulated by TRNSYS. Five scenarios with different incremental steps for adjusting the temperature set-points are compared to determine the optimum “incremental schedule”. Results show that buildings can provide immediate power reduction and achieve a small and even thermal comfort sacrifice by implementing the proposed compound DR method.
Highlights
Sufficient and stable power supply is of great importance for smooth operation of the power grid, which is the cornerstone of economic development [1]
As the major electricity consumers worldwide, buildings can play an important role for power balance of smart grid through demand response (DR)
For demand side-based control, the major disadvantage is that the response speed is generally too slow to allow buildings providing an immediate power reduction for the smart grid
Summary
Sufficient and stable power supply is of great importance for smooth operation of the power grid, which is the cornerstone of economic development [1]. The balance between the electricity supply side and demand side must be achieved all the time. With the rapid development of economy, the electricity demand has been increasing dramatically, especially during peak hours in winter and summer when air-conditioning systems are used. A large amount of renewable energy generations is connected to the power grid, which has a great impact on the balance of the power grid. The peak load and power imbalance have become two critical issues in an electrical grid operation. Demand response (DR) has been considered as a promising solution to alleviate the peak demand and imbalance problem
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