The Study on the New Technology of Exhaust Gas Cascade Utilization from Electrolytic Aluminum Industry

Ji Jun Du; Ping Zeng; Hong Yan Long; Fan Zhang

doi:10.4028/www.scientific.net/AMR.1010-1012.891

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Study on the Copper Ion Removal from Water by Adsorption
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Sulfur Poisoning and Regeneration of SCR Catalyst Based on V₂O₅/TiO₂
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The Application of Information Retrieval in Governance Decision of Water Bloom Based on Decision Tree and CPN Neural Network
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The Study on the New Technology of Exhaust Gas Cascade Utilization from Electrolytic Aluminum Industry
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THF Removal from Polluted Air in Aerobic Biotrickling Filter Inoculated with Microbactrium oxydans DDH-1
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A Classification Method of Projection Pursuit Based on Population Migration Algorithm for Fly Ash
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Absorption Performance of Rotating Packed Bed with Gas-Liquid Distribution Inducer
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 1010-1012The Study on the New Technology of Exhaust Gas...

The Study on the New Technology of Exhaust Gas Cascade Utilization from Electrolytic Aluminum Industry

Abstract:

With the development of electrolytic aluminum in our country, sulphur content in aluminum anode increased year by year, thus there is the risk of SO₂ discharge over standard in exhaust gas treatment in electrolytic aluminum industry. Further, the waste heat from exhaust gas of electrolytic aluminum has not been made full use at present. It is necessary to development new exhaust gas treatment and utilization technology. In this study, a scheme about electrolytic aluminum exhaust gas cascade utilization has been proposed according to the characteristics of electrolytic aluminum exhaust gas. The electrolytic aluminum exhaust gas after dry treatment could be sent to power plant boiler as combustion air, as the discharge of electrolytic aluminum exhaust gas and air pollutants could be decreased greatly. After the comparison of techno-economic analysis, the discharge by the scheme of cascade utilization was less than that with desulfurization, with more economic benefit. Thus it is worth to be extended, since the scheme of electrolytic aluminum exhaust gas cascade utilization showed good techno-economy.