摘要
With the widespread application of composite insulators in transmission lines,exploring the accumulation mechanism of pollution particles on composite insulator surfaces is of importance to ensure the safe and steady operation of the power system.Addressing the current theoretical shortcomings,this study categorises the accumulation process of particles on the insulator surface into three stages,namely‘spatial motion’,‘surface collision’,and‘surface motion’.The motion and rotation velocities in a multi-physics field are calculated in the spatial motion stage.In the surface collision stage,a parameter called‘neck height’is introduced to determine the optimum mechanics theory,and the normal deposition criterion is established.For the surface motion stage,the sliding displacement and rolling displacement on the surface are calculated based on the rotation speed of the particles.A dynamic pollution accumulation model of the composite insulator is estab-lished based on the normal deposition criterion and tangential displacement.Finally,numerical simulations are performed by using the finite element method.Simulation results show that the proposed model agrees with the actual insulator pollution accu-mulation,and the deposition model is still applicable for various types of composite insulators operating in different applied voltages.The deposition probability of particles increases with the increasing particle size.In the surface motion stage,particle displacement increases with particle size and wind velocity.
基金
National Key Research and Development Program of China,Grant/Award Number:2022YFB3206800
National Nature Science Foundation of China,Grant/Award Numbers:52307158,52177015。
