Experimental investigation of volumetric heat transfer coefficient in vertical moving-bed for sinter waste heat recovery

Experimental investigation of volumetric heat transfer coefficient in vertical moving-bed for sinter waste heat recovery

•The volumetric heat transfer coefficient of sinter bed layer is proposed and deduced.•The experiment is conducted on a mechanical experimental setup built as a moving-bed.•The effects on volumetric heat transfer coefficient are presented graphically and analyzed.•A small-scale test vertical tank is...

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Veröffentlicht in:Applied thermal engineering 2019-03, Vol.151, p.335-343
Hauptverfasser: Zheng, Ying, Dong, Hui, Cai, Jiuju, Feng, Junsheng, Zhao, Liang, Liu, Jingyu, Zhang, Sheng
Format: Artikel
Sprache:eng
Schlagworte:
Correlation analysis
Dimensionless analysis
Fluid flow
Heat exchange
Heat recovery systems
Heat transfer
Heat transfer coefficient
Heat transfer coefficients
Heat transmission
Moving-bed
Nusselt number
Predictions
Regression analysis
Sinter
Vertical tank
Volumetric analysis
Waste heat recovery
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container_end_page 343
container_issue
container_start_page 335
container_title Applied thermal engineering
container_volume 151
creator Zheng, Ying
Dong, Hui
Cai, Jiuju
Feng, Junsheng
Zhao, Liang
Liu, Jingyu
Zhang, Sheng
description •The volumetric heat transfer coefficient of sinter bed layer is proposed and deduced.•The experiment is conducted on a mechanical experimental setup built as a moving-bed.•The effects on volumetric heat transfer coefficient are presented graphically and analyzed.•A small-scale test vertical tank is used to modify the experiment result.•A suitable correlation in the form of volumetric heat transfer Nusselt number is determined by analyzing and comparing. To explore the heat exchange process in sinter vertical moving-bed, the formula of volumetric heat transfer coefficient is proposed and derived. Then the volumetric heat transfer coefficient is experimentally obtained based on a mechanical experimental setup. The effects on volumetric heat transfer coefficient are presented graphically and analyzed. The volumetric-based correlation in Nusselt number form is obtained by dimensionless method and regression analysis. Aiming at predicting the generality of heat transmission in vertical tank, the correlation is modified on another test vertical tank that is closer to the actual production. Through comparison with the mentioned correlations of previous literatures, the correlation of this work well fits the experimental data. By comparing the Nusselt number calculated by the correlation of this work with that from the experimental data, the relative error of the correlation is within the range of ±4.29%, showing a good prediction effect. The result provides a theoretical basis for strengthening the gas and solid heat exchange.
doi_str_mv 10.1016/j.applthermaleng.2019.01.055
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To explore the heat exchange process in sinter vertical moving-bed, the formula of volumetric heat transfer coefficient is proposed and derived. Then the volumetric heat transfer coefficient is experimentally obtained based on a mechanical experimental setup. The effects on volumetric heat transfer coefficient are presented graphically and analyzed. The volumetric-based correlation in Nusselt number form is obtained by dimensionless method and regression analysis. Aiming at predicting the generality of heat transmission in vertical tank, the correlation is modified on another test vertical tank that is closer to the actual production. Through comparison with the mentioned correlations of previous literatures, the correlation of this work well fits the experimental data. By comparing the Nusselt number calculated by the correlation of this work with that from the experimental data, the relative error of the correlation is within the range of ±4.29%, showing a good prediction effect. 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To explore the heat exchange process in sinter vertical moving-bed, the formula of volumetric heat transfer coefficient is proposed and derived. Then the volumetric heat transfer coefficient is experimentally obtained based on a mechanical experimental setup. The effects on volumetric heat transfer coefficient are presented graphically and analyzed. The volumetric-based correlation in Nusselt number form is obtained by dimensionless method and regression analysis. Aiming at predicting the generality of heat transmission in vertical tank, the correlation is modified on another test vertical tank that is closer to the actual production. Through comparison with the mentioned correlations of previous literatures, the correlation of this work well fits the experimental data. By comparing the Nusselt number calculated by the correlation of this work with that from the experimental data, the relative error of the correlation is within the range of ±4.29%, showing a good prediction effect. 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subjects Correlation analysis
Dimensionless analysis
Fluid flow
Heat exchange
Heat recovery systems
Heat transfer
Heat transfer coefficient
Heat transfer coefficients
Heat transmission
Moving-bed
Nusselt number
Predictions
Regression analysis
Sinter
Vertical tank
Volumetric analysis
Waste heat recovery
title Experimental investigation of volumetric heat transfer coefficient in vertical moving-bed for sinter waste heat recovery
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