Please use this identifier to cite or link to this item: https://hdl.handle.net/2440/128333
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Type: Journal article
Title: Life cycle assessment of ultra-low treatment for steel industry sintering flue gas emissions
Author: Cui, L.
Ba, K.
Li, F.
Wang, Q.
Ma, Q.
Yuan, X.
Mu, R.
Hong, J.
Zuo, J.
Citation: Science of the Total Environment, 2020; 725:138292-1-138292-16
Publisher: Elsevier
Issue Date: 2020
ISSN: 0048-9697
1879-1026
Statement of
Responsibility: 
Lin Cui, Kaiming Ba, Fangqiu Li, Qingsong Wang, Qiao Ma, Xueliang Yuan, Ruimin Mu, Jinglan Hong, Jian Zuo
Abstract: The largest contributor to pollutant emissions is the sintering process in steel industry. Ultra-low emission policy for the Chinese steel industry states that emission concentrations of particulate matter, SO₂ and NOₓ should not exceed 10, 35 and 50 mg/m³ respectively. The emission concentrations of the steel industry are the same as the ultra-low emission policy for the coal-fired power industry, but the pollutant control technologies of the two industries are different. Life cycle assessment method is applied to analyze the latest ultra-low treatment process for sintering flue gas emissions which includes electrostatic precipitation, ozone oxidation, wet desulfurization, wet denitration, condensation dehumidification and wet electrostatic precipitation. Following this novel ultra-low emission treatment, the concentrations of particulate matter, SO₂, NOₓ, and PCDDs in the sintering flue gas decreased very significantly, attaining the new emission standard. With 1 ton of sinter as the functional unit and "cradle to gate" as the system boundary, the environmental impact of the process is 0.1811 and the total economic cost is 172.79 RMB, of which internal cost is 34.64 RMB and external cost is 138.15 RMB. The main environmental impacts result from applying the wet denitration and ozone oxidation processes. Sodium sulfite in the wet denitration process, and electricity and liquid oxygen in the ozone oxidation process are the key inputs that cause environmental impact. These findings are useful for a further optimization of the ultra-low emissions process from both the environmental and economic perspective, which is applicable in other regions of the world.
Keywords: Sintering flue gas; ultra-low emission; air pollutant; life cycle assessment
Rights: © 2020 Elsevier B.V. All rights reserved.
DOI: 10.1016/j.scitotenv.2020.138292
Published version: http://dx.doi.org/10.1016/j.scitotenv.2020.138292
Appears in Collections:Architecture publications
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