Author(s)

Bo Hong^1*, Hanmei Hu¹, Ting Chen², Qinfeng Li¹

¹College of Electrical Engineering and New Energy, China Three Gorges University, Yichang, China.
²College of Electrical Engineering and New Energy, China Three Gorges University, Yichang, China.

Dynamic equivalence can not only largely reduce the system size and the computation time but also stress the dominant features of the system [1]-[3]. This paper firstly recommends the basic concept of dynamic equivalent and the status of both domestic and abroad development in this area. The most existing equivalent methods usually only deal with static load models and neglect the dynamic characteristics of loads such as induction motors. In addition, the existing polymerization method which is based on the frequency domain algorithm of induction electric machines parameters takes a long time to equivalent for the large system, then the new method based on the weighted is proposed. Then, the basic steps for dynamic equivalence with the weighted method are introduced as follows. At first, the clustering criterion of motor loads based on time domain simulation is given. The motors with similar dynamic characteristics are classified into one group. Then, the simplication of the buses of motors in same group and network is carried out. Finally, parameters of the equivalent motor are calculated and the equivalent system is thus obtained based on the weighted. This aggregation method is applied to the simple distribution system of 4 generators. Simulation results show that the method can quickly obtain polymerization parameters of generator groups and the aggregation model retains the dynamic performance of the original model with good accuracy, the active and reactive power fitting error is smaller as well.

Power System; Dynamic Equivalent; Induction Motors; Parameter Aggregation; The Weighted Method

Hong, B. , Hu, H. , Chen, T. and Li, Q. (2014) Dynamic Equivalent Method of Motor Loads for Power Systems Based on the Weighted. Journal of Power and Energy Engineering, 2, 416-422. doi: 10.4236/jpee.2014.24056.