摘要
Matching optimization of resonant parameters among the high power inverters,low power transformers and plasma reactors have significant effects on the performance and output of the reactor array when applying the partitioned operation method.In this paper,the Matlab/Simulink electrical model was established based on the method of partitioned operation.The matching relation between resonant parameters is analyzed on the basis of experimental result.As a consequence,transformer leakage inductance and working frequency are the important parameters influencing the operational efficiency of system,leakage inductance of transformer should be adjusted based on the equivalent capacitance of plasma reactor to realize the matching optimization of resonant parameters.
Matching optimization of resonant parameters among the high power inverters, low power transformers and plasma reactors have significant effects on the performance and output of the reactor array when applying the partitioned operation method. In this paper, the Matlab/Simulink electrical model was established based on the method of partitioned operation. The matching relation between resonant parameters is analyzed on the basis of experimental result.As a consequence, transformer leakage inductance and working frequency are the important parameters influencing the operational efficiency of system, leakage inductance of transformer should be adjusted based on the equivalent capacitance of plasma reactor to realize the matching optimization of resonant parameters.
作者
俞哲
赵嘉琳
刘蕊
曹慧娟
刘璞
张芝涛
Zhe YU;Jialin ZHAO;Rui LIU;Huijuan CAO;Pu LIU;Zhitao ZHANG
基金
supported by National Key Technology Research and Development Program of the Ministry of Science and Technology of China(No.2013BAC06B02)
Public Science and Technology Research Funds Projects of Ocean (No.201305027)
National Natural Science Foundation of China(No.51877024)
Liaoning Scientific Research Project of Department of Education of Liaoning Province(No.LZ2015007)
High Level Talent Innovation Project of Dalian(No.2016RQ040)
