Numerical study on Nusselt number of moving phase interface during wax melting in tube using lattice Boltzman method

A phase-change material was added to filling materials in an appropriate proportion to realize the effective collection and storage of geothermal energy. Based on the theory of heat transfer and similarity, the heat-storage performance of filling body was numerically simulated in different states; then, the influences of paraffin proportion, initial temperature of filling body, surrounding rock temperature, stope airflow temperature and velocity on the heat-storage behavior of filling body were analyzed. The results revealed that reducing the initial heat-storage temperature of filling body, increasing surrounding rock temperature and increasing the airflow temperature in the stope all effectively increased the heat-storage capacity of filling body; in which the influence of initial temperature and surrounding rock temperature were more significant. at the end of 16 h heat-storage period, when the initial temperature of filling body was reduced from 24?C to 18?C, the heat transfer capacity of filling body without paraffin and that with 5 % paraffin decreased by 2.85 ? 103 kJ and 2.40 ? 103 kJ, respectively. When surrounding rock temperature increased from 35?C to 45?C, the amount of heat stored by two bodies increased by 3.89 ? 103 kJ and 4.51 ? 103 kJ, respectively.

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Lattice Boltzmann simulation of the Prandtl number effect on the phase change heat transfer of wax in pipeline

Liu,

Kong,

Zhou

et al. 2024

THERM SCI

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Thermal washing is a common method of wax removal in oil fields. The law of phase change heat transfer of wax during the thermal washing process is revealed to be of great significance for improving the melting rate of wax. The lattice Boltzmann method is used to numerically simulate the process of phase change heat transfer in pipelines with different angles (90?, 45?, 0?, -45? and -90?) of wax layers based on the enthalpy-porous medium model in the present work. The boundary condition between wax and hot water is considered as convective heat transfer boundary. The effect of the Prandtl number on the law of phase change heat transfer of the wax at various angles is investigated. The simulation results indicate a non-linear decrease in the complete melting time of the wax layer from -90? to 90?. The heat transfer capacity is enhanced with the decrease of Prandtl number, which effectively shortens the melting time of wax. The complete melting time of the wax layer is reduced by 23.78% when the Prandtl number decreases from 79.4 to 59.4. The speed of convective heat transfer is increased with the decrease of Prandtl number, which means that the solid zone of wax is accelerated into the loose and porous mushy zone, and the efficiency of wax removal is improved. The research results can provide a reference for improving the efficiency of thermal washing.

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Numerical study on Nusselt number of moving phase interface during wax melting in tube using lattice Boltzman method

Cited by 3 publications

References 30 publications

Experimental study on the effect of asphaltenes on wax removal rate

Experimental study on the effect of asphaltenes on wax removal rate

Numerical simulation of heat-storage performance of filling body with uniformly mixed phase change paraffin

Lattice Boltzmann simulation of the Prandtl number effect on the phase change heat transfer of wax in pipeline

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