Investigation the effect of superficial velocity to the heat transfer in bubbling regime of fluidization using CFD simulation

The performance of heat transfer in gas-solid fluidization flow is influenced by operational factors, such as gas velocity and temperature. CFD simulation method and Factorial Design of Experiment had been used to investigate in an inferential way, to determine the most significant factor that affec...

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Main Authors: Widiawaty, Candra Damis, Siswantara, Ahmad Indra, Budiarso, Daryus, Asyari, Gunadi, Gun Gun Ramdlan, Pujowidodo, Hariyotejo
Format: Conference Proceeding
Language:English
Subjects:
Bubbling
Computational fluid dynamics
Design of experiments
Factorial design
Fluidizing
Heat transfer
Heat transfer coefficients
Simulation
Velocity
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Siswantara, Ahmad Indra
Budiarso
Daryus, Asyari
Gunadi, Gun Gun Ramdlan
Pujowidodo, Hariyotejo
description The performance of heat transfer in gas-solid fluidization flow is influenced by operational factors, such as gas velocity and temperature. CFD simulation method and Factorial Design of Experiment had been used to investigate in an inferential way, to determine the most significant factor that affects the heat transfer. This research had been conducted with four different superficial velocities of 0.35 m/s, 0.45 m/s, 0.5 m/s, and 0.7 m/s. While the temperature was varied by 150 °C, 200 °C, 250 °C, and 300 °C. The results showed that temperature, velocity, and interaction between velocity and temperature influence the convection heat transfer coefficient. Velocity is the most significant factor because it impacts to bubble formation. However, this study found that there is an alternative way to increase the convection heat transfer coefficient by controlled superficial velocity and temperature.
doi_str_mv 10.1063/1.5138279
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subjects Bubbling
Computational fluid dynamics
Design of experiments
Factorial design
Fluidizing
Heat transfer
Heat transfer coefficients
Simulation
Velocity
title Investigation the effect of superficial velocity to the heat transfer in bubbling regime of fluidization using CFD simulation
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