摘要
沿面介质阻挡放电(SDBD)等离子体能够高效生成反应活性物质,在生物医学、环保等应用领域得到广泛研究。SDBD装置的结构和供电电源参数是影响其放电特性及反应活性物质生成的主要因素,为此,以具有螺环线形高压电极的管状沿面放电装置为对象,研究了装置结构及供电电源对其放电特性及臭氧生成的影响。结果表明:在相同的供电电压下,螺环线形高压电极的螺距、介质厚度影响电极间的电场强度和分布、放电功率和臭氧生成量,但螺环线形高压电极的线径对放电功率和臭氧生成量几乎没有影响;螺环线形高压电极的螺距存在一个优化值,在螺距低于25mm时,放电功率和臭氧产生量随着螺距的增加而增加,当螺距大于25mm时,放电功率和臭氧产生量基本不再变化;当绝缘介质管厚度由3mm减小到1.6mm时,放电功率提高约2倍,臭氧产生量提高约3倍。同采用50Hz交流电源供电相比,SDBD装置采用9.6k Hz高频电源供电时,在较低的电压下即可获得较大的放电功率及臭氧产量,且臭氧生成的能量效率提高约25%。
Surface dielectric barrier discharge(SDBD)plasma for biomedical application andenvironmental protection has been extensively studied due to its good performance in efficientgeneration of reactive species.The configuration and power supply parameters of SDBD device havegreat influences on its discharge characteristics and the generation of reactive species.Therefore,theireffects are studied in a tubular SDBD device with coil wire electrode.The experimental results indicatethat the pitch of coil wire electrode and the thickness of dielectric affect the intensity of electric fieldand its spatial distribution,the discharge power and the ozone generation,while the diameter of coilwire electrode has almost no effect on the discharge power and ozone.The discharge power and ozoneyield increase with the increase of pitch until it reaches25mm,and then tend to be invariable when thepitch is more than25mm.Moreover,the discharge power and ozone yield increase about2times and3times respectively at the same applied voltage when the thickness of dielectric decreases from3mm to1.6mm.Compared with a50Hz AC power supply,when SDBD device is supplied with a9.6kHz AC power supply,the discharge power and ozone yield increase with discharge frequency,and an25%increase in the energy yield of ozone is obtained.
作者
商克峰
王浩
岳帅
李杰
吴彦
Shang Kefeng;Wang Hao;Yue Shuai;Li Jie;Wu Yan(School of Electrical Engineering Dalian University of Technology Dalian 116024 China;XJ Group Research and Development Center Xuchang 461000 China)
出处
《电工技术学报》
EI
CSCD
北大核心
2017年第2期53-60,共8页
Transactions of China Electrotechnical Society
基金
国家自然科学基金(21577011)
中央高校基本科研业务费专项基金(DUT15QY23)资助项目
关键词
沿面介质阻挡放电
装置结构
供电电源
放电特性
臭氧
Surface dielectric barrier discharge
device configuration
power supply
discharge characteristics
ozone