摘要
相比传统流动控制技术,表面介质阻挡放电(SDBD)具有响应速度快、体积较小、控制位置灵活、成本较低等优势,具有巨大的应用前景。本文在不同电压幅值和不同频率的条件下,分别进行SDBD实验,并利用纹影技术对SDBD诱导气流进行系统的比较分析。利用像素强度积分法拟合了SDBD诱导气流的速度分布,定性分析电压幅值和电源频率对诱导气流速度的影响。实验结果表明,SDBD消耗功率与电压幅值近似呈指数关系,而与频率近似呈线性关系;随着电压幅值和频率的增大,SDBD诱导气流的长度均先增加后趋于稳定;诱导气流纵向速度分布呈先上升后下降至零的趋势,其最大速度随着电压幅值和频率的增大而增大;不同电压幅值、频率下,诱导气流速度曲线均在距介质表面0.2mm附近达到最大值,几乎不随电压幅值和频率的变化而改变。
Compared with the conventional flow control technology,surface dielectric barrierdischarge(SDBD)has a great application prospect due to its advantages of fast response speed,smallvolume,flexible control position and low cost.In this paper,SDBD discharge experiments were carriedout respectively under different voltage amplitudes and frequencies.Using Schlieren diagnostictechnique,a systematic comparative analysis of induced airflow under different voltage amplitudes andfrequencies was conducted.Here,pixel intensity integral method was used to deduce the velocitydistribution of airflow induced by SDBD.Meanwhile,the influences of voltage amplitude andfrequency on the induced airflow were analyzed qualitatively.The experimental results reveal thatelectrical power consumption of SDBD has an exponential relationship with voltage amplitudeapproximately,and a linear relationship with frequency approximately.As voltage amplitude andfrequency increase,the length of the induced airflow tends to be in stable after increasing.In thelongitudinal direction,the velocity distribution of the induced airflow shows a trend of increasing firstand then decreasing to zero,and its maximum velocity increases with the increasing of voltageamplitude and frequency.Under different voltage amplitudes and frequencies,almost all the inducedairflow velocity curves reach the maximum at0.2mm above the medium surface and hardly vary with the changes of voltage amplitude and frequency.
作者
高国强
彭开晟
董磊
魏文赋
吴广宁
Gao Guoqiang;Dong Lei;Wei Wenfu;Wu Guangning(School of Electrical Engineering Southwest Jiaotong University Chengdu 610031 China)
出处
《电工技术学报》
EI
CSCD
北大核心
2017年第8期55-62,共8页
Transactions of China Electrotechnical Society
基金
国家自然科学基金资助项目(U1234202
51577158
51325704
51607147)
关键词
表面介质阻挡放电
放电特性
诱导气流
气动特性
Surface dielectric barrier discharge
discharge characteristic
induced airflow
aerodynamic characteristic