1. 毕业设计(论文)的内容和要求
近些年来,随着社会经济的快速发展,和城市人口的急剧增多,大气污染物排放量持续增多,城市空气质量形势严峻。
在工业生产中,很多行业都会向大气环境中排放挥发性有机废气(VOCs)。
其中包括 VOCs生产行业,例如石油炼制行业、有机化工行业、轮胎制造行业和日用品制造行业等。
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] Liang P, Jiang W, Zhang L, et al. Experimental studies of removing typical VOCs by dielectric barrier discharge reactor of different sizes[J]. Process Safety and Environmental Protection, 2015, 94:380-384.[2] Martin L , Ognier S, Gasthauer E, et al. Destruction of Highly Diluted Volatile Organic Components (VOCs) in Air by Dielectric Barrier Discharge and Mineral Bed Adsorption[J]. Energy ub M, Jgi I, et al. Treatment of industrial exhaust gases by a dielectric barrier discharge[J]. The European Physical Journal Applied Physics, 2016, 75(2):24708.[11] Lu W, Abbas Y, Mustafa M F, et al. A review on application of dielectric barrier discharge plasma technology on the abatement of volatile organic compounds[J]. Frontiers of Environmental Science Engineering, 2019, 13(2): 1-19.[12] Subrahmanyam C, Renken A, Kiwi-Minsker L. Novel catalytic non-thermal plasma reactor for the abatement of VOCs[J]. Chemical Engineering Journal, 2007, 134(1-3):78-83.[13] Yue X G, Huang Q, Ma P Y, et al. Volatile Organic Compounds Treatment by Dielectric Barrier Discharge Cooperating with Photo-catalytic[J]. High Voltage Engineering, 2015, 41(10):159-191.[14] Karatum O , Deshusses M A . A comparative study of dilute VOCs treatment in a non-thermal plasma reactor[J]. Chemical Engineering Journal, 2016, 294:308-315.[15] Kim D, Shim Y, Park J, et al. Demonstration of organic volatile decomposition and bacterial sterilization by miniature dielectric barrier discharges on low-temperature cofired ceramic electrodes[J]. Japanese Journal of Applied Physics, 2016, 55(4):040302.[16] Mohammad G A, Rahemi N, Allahyari S, et al. Hybrid Plasma-Catalytic Oxidation of VOCs with NiMn/Montmorillonite: Plasma and Catalyst Considerations[J]. Topics in Catalysis, 2017, 60: 934-943.[17] 曹佳平, 罗福然, 蒋洪卫, et al. 低温等离子体废气处理系统: CN103585863A[P].[18] 区瑞锟, 陈砺, 严宗诚, et al. 低温等离子体-催化协同降解挥发性有机废气[J]. 环境科学与技术, 2011, 1:79-84.[19] 赵芯. 低温等离子体处理VOCs技术研究进展[J]. 四川化工, 2016, 19(02):41-43.[20] 余刚, 顾宁, 余奇, et al. 一种处理挥发性有机物(VOCs)的低温等离子体技术: CN1660472[P].[21] 李锻, 刘明辉, 吴彦, et al. 单极性脉冲电源结合介质阻挡放电降解VOCs[J]. 北京理工大学学报, 2005, 25(z1):201-204.[22] 张晓星, 肖焓艳, 黄杨珏. 低温等离子体处理SF6废气综述[J]. 电工技术学报, 2016(24):16-24.[23] 章程, 方志, 胡建杭, et al. 介质阻挡放电电气参数与反应器参数的测量[J]. 绝缘材料, 2007(04):53-55.
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