2016 AIChE Annual Meeting

(254au) Experimental Studies on CO2、NOX、soX Adsorbing Capacity of Polyaniline-Based Materials

Authors

Youhai Yu - Presenter, Xi'an Institute of Optics and Precision Mechanics
Yong Min, Guangdong University of Technology
Binglu Meng, Xi’an Institute of Optics and Precision Mechanics of Chinese Academy of Science
Shan Liyuan, Institute of Powder Engineering
Delong Xu, Xi`an University of Architecture and Technology
Huang Jia, Xi`an University of Architecture and Technology
Gao Lin, Xi`an University of Architecture and Technology
Hui Li, Institute of Powder Engineering
 Experimental studies on CO2�NOX�SOX Adsorbing Capacity of Polyaniline-based materials

 

Liyuan Shan1, Li Hui1, Huang jia1, Gao lin1,Binglu Meng1, Delong Xu1, Youhai Yu2,b,*and Yong Min1,a,*

1. Institute of Powder Engineering, Shaanxi Techno-Institute of Recycling Economy, P.R.China

2.Xi'an Institute of Optics and Precision Mechanics of Chinese Academy of Science

a email: yong686@126.com, youhai.yu@gmail.com. *Corresponding author

Keywords: CO2�NOX�SOX adsorption, PANI-based materials, composites

Abstract

Eigenstate polyaniline (PANI) were prepared by in-situ polymerization methodï¼?and under the same experimental conditions, composites doped with attapulgiteã?vermiculite and diatomite were prepared respectively. The exist of additive materials of attapulgiteã?vermiculite and diatomite acted as the skeleton of PANI. The samples were characterized by FTIRã?XRDã?SEMã?UV spectrophotometer and TGA. The results revealed that the composites which have the structure of attapulgite and the nature of the polyaniline. The composites doped with attapulgiteã?vermiculite and diatomite had better excellent adsorption Capacity in 100-160â??for acid gas such as CO2ã?SO2 and NO2 under TGA than that of PANI modified with nothing. This property of PANI-based materials has a great importance significance for dealing with the fuel gas in thermal power industry to protect environment.

Acknowledgement

This work was financially supported by the Project of National Natural Science Foundation of China (NSFC Grant No. 51274159) and Special Funds for the Major Science and Technology Innovation of Shaanxi Province (No. 2012zkc06-2)