Progress on Collection, Treatment and Utilization of Solid Waste
American Journal of Chemical Engineering
Volume 4, Issue 2, March 2016, Pages: 52-56
Received: May 3, 2016;
Published: May 19, 2016
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Shang Shuyong, School of Chemistry and Life Science, Chengdu Normal University, Chengdu, Sichuan, P. R. China
Mei Li, School of Chemistry and Life Science, Chengdu Normal University, Chengdu, Sichuan, P. R. China
Zhang Yudie, Research Institute of Chemical Engineering and Technology, Yibin University, Yibin, Sichuan, P. R. China
Huang Fei, Research Institute of Chemical Engineering and Technology, Yibin University, Yibin, Sichuan, P. R. China
Wang Bing, Research Institute of Chemical Engineering and Technology, Yibin University, Yibin, Sichuan, P. R. China
Li Weiyi, Research Institute of Chemical Engineering and Technology, Yibin University, Yibin, Sichuan, P. R. China
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With more and more serious impact on the environment by solid waste, the collection, treatment and utilization of solid waste have become the research focus in the current. This article mainly generalizes the collection ways and treatment methods for the living garbage, industrial waste and agricultural waste. The resource utilization techniques of solid wasteincluding separation technology, incineration and pyrolytictechniques, biological treatment technology, energy recovery via RDF and incineration power generationare analyzed and discussed in detail. The results will provide some proper proposals for handling and reusing solid waste effectively and contribute to the social sustainable development, the low carbon economy and the eco-development.
Solid Waste, Living Garbage, Industrial Waste, Agricultural Waste, Collection, Treatment, Resource Utilization
To cite this article
Progress on Collection, Treatment and Utilization of Solid Waste, American Journal of Chemical Engineering.
Vol. 4, No. 2,
2016, pp. 52-56.
Chen Jie, Wang Qiannan, Ye Zhiping, et al. Low temperature plasma combined with stripping method to remove leachate [J]. Journal of chemical waste odor, 2012, 63 (11): 3660-3665.
Li Jinhui, Nie Yongfeng, Bai Qingzhong. Research on industrial solid waste China [J]. Journal of environmental science forecast, 1999 (06): 625-630.
What flowers. Classification of the establishment of city living garbage collection [J]. a new mode of environmental protection and recycling economy, 2012 (05): 15-17.
Liu Shuzhi, Zhu Yuwu, Yang Yuhua, et al. Dian chi basin rural solid waste source classification collection and processing of system design [J]. Yunnan environmental science, 2006 (S1): 162-164.
Zhang Qi city solid waste harmless treatment way [J]. Chinese resources comprehensive utilization, 2012 (08): 26-29.
Liao Lingjuan, Huang Na, Jiang Ming Hong, et al. The city solid waste by different treatment methods for carbon emissions analysis -- Taking Dong guan city as an example of a garbage incineration power plant [J]. Anhui agricultural science, 2013 (16): 7287-7289.
Wang Limin. Life garbage treatment process selection [J]. Shan xi architecture, 2013 (25).
Huang Binghui. Slag separation process of [J]. green technology of MSW incineration, 2013 (07): 215-217.
Zhang Jing. The recycling of urban living garbage [J]. Resources Economization and Environment Protection, 2015 (10): 26.
Li Zehui, Fu Xiaoru, Shen Kai, et al. Research of city life garbage sorting technology [J]. renewable resources and recycling economy, 2013 (06): 24-27.
Nguyen. Countermeasures of [J]. status and treatment of solid waste pollution in China today Keyuan, 2011 (02): 34
Chen Jiang. Non thermal plasma technology in wastewater treatment applications [J]. modern chemical industry, 2012 (06): 632-639.
Liu Xin, Li Shengli, Li Mingshu. Feasibility study on applying straw resources [J]. Anhui Agricultural Sciences thermal plasma technology, 2012 (17): 9200-9202.
Zhou Dan. Plasma gasification technology of garbage disposal is the future direction of development of [J]. Foreign energy, 2013 (09): 57
Wang Mingfei, forest conditions. Plasma technology in waste treatment in the application of [J]. technology to the wizard, 2014 (05): 43-116.
Liu Shanshan, Wu Shuang, Zhu Nanwen. The landfill leachate biological treatment technology research status and Prospect of [J]. Guangzhou chemical industry, 2014 (04): 8-10.
Once. Organic solid waste composting microbiological mechanism of [J]. science and Technology Innovation Herald, 2013 (36): 28
Zhou Chuanbin, Xu Wanying, Cao Aixin. Research progress of city life garbage metabolism in [M]. 2014
XuJia, Yan Jianhua, Xiao Gang, et al. City life garbage gasification technology [J]. Chinese Science Bulletin, 2004 (06): 560-564.
Shen Boxiong, Yao Qiang. Refuse derived fuel (RDF) technology [J]. Power system engineering, 2002 (03): 47-49.
Li Yanji, Jiang Lu, Li Yulong, et al. Study on dynamic characteristics of refuse derived fuel gasification [J]. Power system engineering, 2013 (01): 5-8.
Yu Dujiang. Refuse derived fuel (RDF) gasification characteristics of fluidized bed air experiment [D]. Dissertation of Zhejiang University, 2014.
Zhang Lijing. Refuse derived fuel gasification pyrolysis mechanism model and Simulation of [D]. Dissertation of Zhejiang University, 2014.