Experimental study and numerical modeling of the thermal behavior of an industrial prototype ceramic furnace:Energy and environmental optimization  被引量:1

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作  者:Lahcen BALLI Mohamed HLIMI Youssef ACHENANI Adil ATIFI Bachir HAMRI 

机构地区:[1]Engineering Sciences and Applications Laboratory(LSIA),National School of Applied Sciences(ENSAH),Abdelmalek Essaadi University,Tetouan,Morocco [2]Faculty of Sciences and Techniques,Moulay Ismaïl University,P.O.Box 509-Boutalamine,Errachidia,Morocco [3]Engineering and Health Sciences and Technologies Research Center,M2SM,ENSAM,Mohammed.V University,Rabat,Morocco [4]Research Team Quality,Maintenance Safety QSM,Mechanical Engineering,Department Mohammadia School of Engineers,Mohammed V University,Rabat,Morocco

出  处:《Energy and Built Environment》2024年第2期244-254,共11页能源与人工环境(英文)

基  金:funded by a grant from Ministry of Industry of Morocco.

摘  要:This article focuses on the experimental and numerical study of an industrial prototype furnace intended for the production of ceramics in order to improve the energy efficiency and therefore optimize the fuel consumption and the corresponding carbon dioxide emissions.In order to understand the thermal behavior from which stems the energy efficiency of the experimental prototype,we establish in this work,a simplified modeling allowing to establish a mathematical model describing the thermal behavior of the furnace.The model is able to accurately predict the spatial and temporal distribution of the temperature at each point of the furnace to control the firing of the refractory product so that the final product is of good quality in terms of resistance and hardness.In addition,the power consumed by the prototype must be optimized in order to reduce energy and environmental consumption.In particular,this efficient technology has allowed us to save 83% of energy used in the traditional furnace and to reduce 87.36% of the relative carbon dioxide emission.The simulation of the mathematical model made it possible to compare the numerical results with the experimental measurements obtained by the prototype as well as to validate the model and to adjust the heat transfer parameters.

关 键 词:Numerical modeling Thermal behavior Ceramic furnace Refractory materials Energy efficiency 

分 类 号:TB34[一般工业技术—材料科学与工程] TK11[动力工程及工程热物理—热能工程]

 

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