CFD simulation of forced heat transfer of gas in pipe

This paper presents results from CFD simulation of heat transfer processes in ABAQUS. The investigations are realized at forced convection of air in steel pipe. Verification of the computing mesh and validation of the model, have been done. The average heat convection coefficients have been determin...

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Published in	E3S Web of Conferences Vol. 112; p. 1008
Main Authors	Kolev, Zhivko, Kadirova, Seher
Format	Journal Article Conference Proceeding
Language	English
Published	Les Ulis EDP Sciences 01.01.2019
Subjects	Air flow Computational fluid dynamics Computer simulation Convection Finite element method Forced convection Heat transfer Mathematical models Numerical models Program verification (computers) Simulation Steel Steel pipes
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Abstract	This paper presents results from CFD simulation of heat transfer processes in ABAQUS. The investigations are realized at forced convection of air in steel pipe. Verification of the computing mesh and validation of the model, have been done. The average heat convection coefficients have been determined by methodology based on criteria equations, and on simulation methodology. Heat transfer processes between air flow in a steel pipe and the environment, have been experimentally accomplished. In order to analyze the processes of heat convection between the fluid and the internal surface of the pipe, numerical modelling is applied. A geometric model of the fluid flowing in the pipe is built. The computing mesh has been verified by increasing the number of cells and nodes. The numerical model has been validated based on experimentally measured temperature values and the simulation data. The heat convection coefficients have been investigated by analogy of the above. The results demonstrate that the numerical model is adequate and can be used to study similar heat transfer processes.
AbstractList	This paper presents results from CFD simulation of heat transfer processes in ABAQUS. The investigations are realized at forced convection of air in steel pipe. Verification of the computing mesh and validation of the model, have been done. The average heat convection coefficients have been determined by methodology based on criteria equations, and on simulation methodology. Heat transfer processes between air flow in a steel pipe and the environment, have been experimentally accomplished. In order to analyze the processes of heat convection between the fluid and the internal surface of the pipe, numerical modelling is applied. A geometric model of the fluid flowing in the pipe is built. The computing mesh has been verified by increasing the number of cells and nodes. The numerical model has been validated based on experimentally measured temperature values and the simulation data. The heat convection coefficients have been investigated by analogy of the above. The results demonstrate that the numerical model is adequate and can be used to study similar heat transfer processes.
Author	Kadirova, Seher Kolev, Zhivko
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Cites_doi	10.1109/SIELA.2018.8447096 10.1016/j.icheatmasstransfer.2012.06.019 10.22161/ijaers.4.5.15 10.1016/j.proeng.2014.10.303 10.1007/978-3-319-68324-9_44 10.1016/j.ijheatmasstransfer.2017.01.122 10.1515/cpe-2016-0020 10.1016/j.proeng.2017.02.220
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SubjectTerms	Air flow Computational fluid dynamics Computer simulation Convection Finite element method Forced convection Heat transfer Mathematical models Numerical models Program verification (computers) Simulation Steel Steel pipes
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Title	CFD simulation of forced heat transfer of gas in pipe
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