基于不对称运行下换相过程的改进换流器动态相量模型

为充分研究大规模交直流混联系统动态特性,建立准确而高效的换流器数学模型是当前的关键问题。文章分析了交流系统在不对称故障情况换流器的换相过程,综合考虑了换相电压的相位偏移引起的换相电压过零点偏移和导通角偏移,以及交流系统的谐波等对换相持续时间的影响,提出了改进的换相角动态相量计算方法,建立了适用于不对称运行条件下的改进换流器动态相量模型,并通过选取主要谐波简化了模型的计算过程。仿真验证了所提出的改进换流器动态相量模型的精度和准确性。

Dynamic phase measurement model of improved converter based on phase change process under asymmetric operation

Establishment of an accurate and efficient converter mathematical model is a key problem in studying the dynamic characteristics of large-scale ac-dc hybrid systems. In this paper, the commutation process of commutator in the case of asymmetrical fault is analyzed, and the zero-crossing migration and on-angle migration of commutative voltage caused by phase shift of commutative voltage are considered synthetically, as well as the influence of harmonics of AC system on the duration of commutation, an improved method for calculating the dynamic phasor of commutation angle is established, and an improved dynamic phasor model suitable for asymmetric operation is proposed. The accuracy of the proposed improved convertor dynamic phasor model are verified by simulation, which can be further extended to the modeling under various fault conditions and has a certain universality.