1. 毕业设计(论文)的内容和要求
该设计选题属于实验研究类。
要求学生对电极结构与流速分布对射流阵列放电模式的影响进行实验研究,并对实验结果进行分析和比较。
通过对不同结构的电极以及不同气体流速条件下的实验现象以及实验数据进行处理和总结,最终得到相应的结论。
2. 参考文献
根据毕业要求指点10.3,毕设期间要进行研究现状调查与总结,要求在开题报告及毕业设计(论文)中涉及的英文文献不少于20篇,其中近5年不少于8篇,英文文献不少于5篇。
以下是与本课题相关的部分文献列表:[1] 梁曦东,陈昌渔,周远翔.高电压工程[M].北京:清华大学出版社,2003.[2] 徐学基, 诸定昌.气体放电物理[M].上海:复旦大学出版社,1996.[3] 邱毓昌,张文元,施围.高电压工程[M].西安:西安交通大学出版,1995.[4] Xie Q, Wang Y, Liu X, et al. Characteristics of microsecond-pulse surface flashover on epoxy resin surfaces in SF6[J]. IEEE Transactions on Dielectrics Electrical Insulation, 2016, 23(4):2328-2336. [5] Yamano Y, Ito S, Kato K, et al. Charging characteristics and electric field distribution on alumina as affected by triple junctions in vacuum[J]. IEEE Transactions on Dielectrics and Electrical Insulation, 2002, 9(2):173-177. [7] Li J, Xiang Q, Liu X, et al. Inactivation of soybean trypsin inhibitor by dielectric-barrier discharge (DBD) plasma[J]. Food Chemistry, 2017, 232:515-522.[8] Fang Z, Ding Z, Shao T, et al. Hydrophobic surface modification of epoxy resin using an atmospheric pressure plasma jet array[J]. IEEE Transactions on Dielectrics Electrical Insulation, 2016, 23(4):2288-2293. [9] Kumara S, Ma B, Serdyuk Y V, et al. Surface charge decay on HTV silicone rubber: effect of material treatment by corona discharges[J]. IEEE Transactions on Dielectrics and Electrical Insulation, 2012, 19(6):2189-2195.[10] Chen S, Wang S, Wang Y, et al. Surface Modification of Epoxy Resin using He/CF4, Atmospheric Pressure Plasma Jet for Flashover Withstanding Characteristics Improvement in Vacuum[J]. Applied Surface Science, 2017, 414.[11] Zhou Y, Tao S, Zhi F, et al. Discharge characteristics of one-dimensional plasma jet array at atmospheric pressure[C].2014.[12] Yu K, Sagung D K, Yu-Ming S. Oxygen Vacancy Levels on Gadolinia-doped Ceria Interlayer Deposited by Atmospheric Pressure Plasma Jet for Solid Oxide Fuel Cells[J]. Ceramics International, 2018, 44(13).[13] Cao Z, Walsh J L, Kong M G. Atmospheric plasma jet array in parallel electric and gas flow fields for three-dimensional surface treatment[J]. Applied Physics Letters, 94(2):21501-0.[14] Ghasemi M, Olszewski P, Bradley J W, et al. Interaction of multiple plasma plumes in an atmospheric pressure plasma jet array[J]. Journal of Physics D Applied Physics, 46(5):052001.[15] Kim J Y, Kim J H, Kim H J, et al. Plasma Jet-to-Jet Coupling Behavior Between Two Plasma Jet Arrays for Surface Treatments Requiring Strong Discharge Process[J]. IEEE Transactions on Plasma Science, 2014, 42(10):2474-2475.[16] Pulpytel J, Kumar V, Peng P, et al. Deposition of Organosilicon Coatings by a Non‐Equilibrium Atmospheric Pressure Plasma Jet: Design, Analysis and Macroscopic Scaling Law of the Process[J]. Plasma Processes Polymers, 2011, 8(7):664-675.[17] Fan Q, Qian M, Ren C, et al. Discharge Characteristics of a Cold-Atmospheric-Plasma Jet Array Generated With Single-Electrode Configuration[J]. IEEE Transactions on Plasma Science, 40(6):1724-1729.[18] 张波, 汪立峰, 刘峰,等. 交流和纳秒脉冲激励氦气中等离子体射流阵列放电特性比较[J]. 电工技术学报, 34(06):205-214.[19] 马为民, 樊纪超. Ar气中1维等离子体射流阵列的实验研究[J]. 高电压技术, 2015, 41(6):2015-2021. [20] 范倩倩. 单电极结构的大气压冷等离子体射流阵列的放电特性研究[D]. 大连理工大学, 2013.[21] 张波, 万梦, 刘峰,等. 等离子体射流阵列射流单元之间耦合作用研究[C]. 第十八届全国等离子体科学技术会议. 2017.[22] 张波, 周若瑜, 汪立峰,等. 脉冲参数对大气压He中一维射流阵列放电特性的影响[J]. 电工技术学报, 33(21):213-222.[23] 刘文正, 贾凌云, 孔飞,等. 阵列式等离子体射流特性的研究[J]. 北京交通大学学报(2):109-112. [24] 周亦骁, 邵涛, 章程,等. 微秒脉冲大气压氦气等离子体射流阵列特性[J]. 强激光与粒子束, 2014, 26(4):26045003.[25] 牛俊博. 阵列型大气压冷等离子体射流均匀性控制及特性实验研究[D]. 哈尔滨工业大学.
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