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Optimization of the Airflow Organization of the Roof Hood of Electric Furnace under the Influence of Lateral Wind

This paper investigates the effect of the “tornado” air distribution in a roof hood under the influence of lateral winds and the ability of this air distribution to resist the influence of lateral winds using numerical simulations. Numerical simulations were conducted to investigate the effect of th...

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Published in:E3S Web of Conferences 2022-01, Vol.356, p.5078
Main Authors: Song, Gaoju, Chi, Jiachun, Li, Baoqiang, Geng, Changhan, Xu, Hongjin, Qiang, Tianwei
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Chi, Jiachun
Li, Baoqiang
Geng, Changhan
Xu, Hongjin
Qiang, Tianwei
description This paper investigates the effect of the “tornado” air distribution in a roof hood under the influence of lateral winds and the ability of this air distribution to resist the influence of lateral winds using numerical simulations. Numerical simulations were conducted to investigate the effect of the “tornado” air distribution on improving the pollutant trapping effect of the roof hood under the influence of lateral winds. The results of the study show that the “tornado” air distribution can effectively improve the capture efficiency of the roof hood under the influence of lateral winds. The results show that the “tornado” airflow can effectively improve the capture efficiency of the rooftop hood under the effect of lateral wind. For the study subject, the ventilation system can achieve energy saving of 74×10 4 kW·h/a and carbon reduction of 720t/a. It provided a reference for the renovation and new construction of roof hoods for large electric furnaces.
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Numerical simulations were conducted to investigate the effect of the “tornado” air distribution on improving the pollutant trapping effect of the roof hood under the influence of lateral winds. The results of the study show that the “tornado” air distribution can effectively improve the capture efficiency of the roof hood under the influence of lateral winds. The results show that the “tornado” airflow can effectively improve the capture efficiency of the rooftop hood under the effect of lateral wind. For the study subject, the ventilation system can achieve energy saving of 74×10 4 kW·h/a and carbon reduction of 720t/a. 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subjects Air flow
angular velocity
electric furnace
Electric furnaces
Energy conservation
foundry
Furnaces
lateral wind
Optimization
Pollutants
roof hood
Roofs
tornado
Tornadoes
Wind
Wind effects
title Optimization of the Airflow Organization of the Roof Hood of Electric Furnace under the Influence of Lateral Wind
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