全部 标题 作者
关键词 摘要

OALib Journal期刊
ISSN: 2333-9721
费用:99美元

查看量下载量

相关文章

更多...

微波协同霍加拉特剂催化氧化苯的影响因素

Keywords: 微波,霍加拉特剂,,催化氧化,影响因素

Full-Text   Cite this paper   Add to My Lib

Abstract:

为了探索一种高效、快速处理典型挥发性有机物的方法,对微波协同作用下霍加拉特剂催化氧化苯的性能进行了研究,主要考查了微波作用模式、微波功率、苯初始浓度、气体流量、催化剂用量和气体湿度对处理苯效果的影响,并对影响规律进行总结。实验结果表明,微波功率70W,苯初始浓度1917mg/m3,气体流量1.0L/min,催化剂床层高度3.86cm时,苯转化率可达99.2%。微波辐照条件下霍加拉特剂能够有效实现苯的催化氧化,并且比传统加热具有更高的能量利用率。

References

[1]  马双忱,靳义净,金鑫,等.烟气共存成分对微波辐照活性炭同时脱硫脱硝的影响研究.燃料化学学报,2011,39(6):460-464 Ma S. C., Jin Y. J., Jin X., et al. Influences of co-existing components in flue gas on simultaneous desulfurization and denitrification using microwave irradiation over activated carbon. Journal of Fuel Chemistry and Technology, 2011, 39(6): 460-464(in Chinese)
[2]  金钦汉.微波化学.北京:科学出版社,1999
[3]  Wicks G. G., Clark D. E., Schulz R. L., et al. Microwave technology for waste management applications including disposition of electronic circuitry. Westinghouse Savannah River Co., Aiken, SC (United States), 1995
[4]  Jones D. A., Lelyveld T. P., Mavrofidis S. D., et al. Microwave heating applications in environmental engineering: A review. Resources, Conservation and Recycling, 2002, 34(2): 75-90
[5]  孙萍,肖波,杨家宽,等.微波技术在环境保护领域的应用.化工环保,2002,22(2):71-75 Sun P., Xiao B., Yang J. K., et al. Application of microwave technology in environmental protection. Environmental Protection of Chemical Industry, 2002, 22(2): 71-75(in Chinese)
[6]  闫丽,郑广宏.微波诱导催化技术在污水处理中的研究进展.工业用水与废水,2009,40(1):11-14 Yan L., Zheng G. H. Research progress of microwave induced catalysis technology applied for wastewater treatment. Industrial Water & Wastewater, 2009, 40(1): 11-14(in Chinese)
[7]  Cha C. Y. Microwave induced reaction of SO2 and NOx decomposition in the char-bed. Research on Chemical Intermediates, 1994, 20(1): 13-28
[8]  Kong Y., Cha C. Y. NOx abatement with carbon adsorbents and microwave energy. Energy & Fuels, 1995, 9(6): 971-975
[9]  Kong Y., Cha C. Y. Reduction of NOx adsorbed on char with microwave energy. Carbon, 1996, 34(8): 1035-1040
[10]  Cha C. Y., Kim D. S. Microwave induced reactions of sulfur dioxide and nitrogen oxides in char and anthracite bed. Carbon, 2001, 39(8): 1159-1166
[11]  Tai H. S., Jou C. J. G. Application of granular activated carbon packed-bed reactor in microwave radiation field to treat phenol. Chemosphere, 1999, 38(11): 2667-2680
[12]  Takashima H., Karches M., Kanno Y. Catalytic decomposition of trichloroethylene over Pt-/Ni-catalyst under microwave heating. Applied Surface Science, 2008, 254(7): 2023-2030
[13]  廖建波,卜龙利,张钰彩,等.微波辐照下碳化硅与沸石负载氧化铜催化剂协同去除甲苯的实验研究.环境科学学报,2011,31(11):2416-2422 Liao J. B., Bo L. L., Zhang Y. C., et al. Synergistic effect of SiC and CuO/zeolite catalyst on the removal of toluene under microwave irradiation. Acta Scientiae Circumstantiae, 2011, 31(11): 2416-2422 (in Chinese)
[14]  王幸宜,卢冠忠.铜,锰氧化物的表面过剩氧及其甲苯催化燃烧活性.催化学报,1994,15(2):103-108 Wang X. Y., Lu G. Z., Wang R., et al. Surface oxygen phase structure of copper and manganese oxides and their activity in catalytic combustion. Journal of Catalysis, 1994, 15(2): 103-108(in Chinese)
[15]  张纪领,尹燕华,张志梅,等.新型霍加拉特催化剂催化燃烧性能研究.舰船防化,2008,(2):1-7 Zhang J. L., Yin Y. H., Zhang Z. M., et al. The catalytic combustion performance over Cu-Mn mixed oxide catalysts. Chemical Defence on Ships, 2008,(2):1-7(in Chinese)

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133