Issue 56, 2018, Issue in Progress
From the journal:

RSC Advances

Simultaneous absorption of NO and SO2 by combined urea and FeIIEDTA reaction systems

Feiqiang He, ORCID logo *a   Xianhe Dengb  and  Jianhua Ding*a  

* Corresponding authors

a School of Chemistry, Biology and Materials Science, East China University of Technology, Nanchang 330013, P. R. China
E-mail: he_feiqiang@ecit.cn, dingjianh2004@126.com

b School of Chemistry and Chemical Engineering, South China University of Technology, Guangzhou 510640, P. R. China

Abstract

SO2 and NO emitted from coal-fired power plants have caused serious air pollution in China. In this work, a novel mixed absorbent, FeIIEDTA/urea, was employed for simultaneous removal of SO2 and NO in a packed tower, with a corresponding optimal ratio of 0.014 mol L−1 : 5%. The effects of various factors, such as mixed absorbent constitutions, reaction temperature, pH, O2 concentration, as well as concentrations of SO2 and NO, on simultaneous removal were investigated. The desulfurization efficiency was 95–99% in all tests, whereas denitrification was affected significantly by various conditions. NO removal efficiency decreased increasing oxygen concentration as well as increasing NO concentration. With an increase in temperature, pH, or SO2 concentration, NO removal efficiency increased first and then decreased. Under optimal conditions, SO2 removal efficiency was 100% and NO removal efficiency could exceed 91% within 80 min. The reaction mechanism was speculated according to relevant literature.

Graphical abstract: Simultaneous absorption of NO and SO2 by combined urea and FeIIEDTA reaction systems

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Article information

DOI
https://doi.org/10.1039/C8RA06376A
Article type
Paper
Submitted
29 Jul 2018
Accepted
05 Sep 2018
First published
17 Sep 2018
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2018,8, 32138-32145

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Simultaneous absorption of NO and SO2 by combined urea and FeIIEDTA reaction systems

F. He, X. Deng and J. Ding, RSC Adv., 2018, 8, 32138 DOI: 10.1039/C8RA06376A

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