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受吴仲华先生“叶轮机械三元流动理论”的启发,在前期压气机等离子体流动控制研究的基础上,进一步提出等离子体激励式压气机的概念,即将等离子体激励融入到S1,S2流面压气机气动设计之中,以释放常规压气机设计中失速裕度、负荷极限等因素的约束。本文旨在探讨等离子体流动控制在新一代高负荷压气机中应用的前景和研究趋势,通过原理论证与实例分析,首先阐述了等离子体激励式压气机的概念,然后梳理了压气机等离子体流动控制研究的若干进展,以论述等离子体激励式压气机设计的研究基础,最后给出了等离子体激励式压气机的典型技术路径和理论基础。
Inspired by Mr. Wu Zhonghua “impeller mechanical ternary flow theory ”, on the basis of the previous research on the plasma flow control of the compressor, the concept of the plasma-driven compressor is further proposed. That is, the plasma excitation is integrated into the S1 and S2 flows Surface air compressor pneumatic design, to release conventional compressor design stall margin, load limit and other factors. This paper aims to explore the plasma flow control in a new generation of high-load compressor application prospects and research trends, through theoretical proofs and case studies, first described the concept of plasma-driven compressor, and then sort out the compressor plasma flow Control the progress of the research to discuss the research foundation of the plasma-actuated compressor design, and finally gives the typical technical path and theoretical basis of the plasma-actuated compressor.