Influence Mechanism of Gas–Containing Characteristics of Annulus Submerged Jets on Sealing Degree of Mixing Zone

Wang, Chao; Xie, Jun; Khan, Md. Shakhaoath

doi:10.3390/pr10030593

Cited by 2 publications

(1 citation statement)

References 27 publications

(35 reference statements)

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“…The internal flow field was divided into grids in the grid module, and the gridding results were uploaded into the fluent software. To improve the quality of model grids, structured grids were used for the observation trough and TES, while unstructured tetrahedral grids were used for other parts [25]. The numbers of grids corresponding to various structure parameters are given in Table 1.…”

Section: Computing Domains and Gridsmentioning

confidence: 99%

Research on Performance Optimization of Liquid Concentration Detection Systems Based on Turbulence Elimination

Liu

Wang

et al. 2022

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Liquid concentration detection systems have been widely used in food, chemical, pharmaceutical, and many other industries. When the liquid flows, a large number of vortices will usually be generated, resulting in increased turbulence intensity, which will interfere with the detection of the concentration of the suspension. In this paper, a method for concentration detection by differential pressure based on turbulence elimination is proposed to improve the reliability of concentration detection results. The changes in the internal flow field corresponding to different lengths of the turbulence elimination structure and different inlet angles are analyzed through numerical simulation. Finally, the influence of changes in structure parameters on the accuracy of concentration detection is tested through experiments. The results show that when the length of the turbulence elimination structure is small, the vortex zone inside the concentration detection device changes with the inlet velocity. When the length of the turbulence elimination structure is 150 mm, the vortex zone is basically not affected by the inlet velocity. The stability of the flow field increases with the increase in the inlet angle. When the inlet angle increases to 60°, a stable zone of turbulence will form in the region where Y > 0.4 m. When the length of the turbulence elimination structure is 150 mm and the inlet angle is 60°, the expected experimental results are obtained, and the actual needs of liquid concentration measurement are met.

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Section: Computing Domains and Gridsmentioning

confidence: 99%

Research on Performance Optimization of Liquid Concentration Detection Systems Based on Turbulence Elimination

Liu

Wang

et al. 2022

Processes

Self Cite

View full text Add to dashboard Cite

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Stationary Gas Dynamics and Heat Transfer of Turbulent Flows in Straight Pipes at Different Turbulence Intensity

et al. 2022

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The gas-dynamic and heat-exchange behaviours of air flows in gas-dynamic systems have a significant impact on the efficiency and environmental performance of most technical equipment (heat engines, power plants, heat exchangers, etc.). Therefore, it is a relevant task to obtain reliable experimental data and physical laws on the influence of cross-sectional shape and initial turbulence intensity on gas dynamics and the level of heat transfer. In this study, data were experimentally obtained on the instantaneous values of the local velocity and local heat transfer coefficients of stationary air flows in straight pipes with circular, square, and triangular cross-sections at different initial values of the turbulence intensity. The measurements were carried out with a constant temperature hot-wire anemometer, thermocouples, and pressure sensors. Based on the research results, data on the turbulence intensity and averaged local heat transfer along the length of pipes with different cross-sections were summarised. It has been established that turbulence intensity in a square pipe is up to 40% higher than in a round channel; in a triangular channel, on the contrary, it is up to 28% lower. After the air flow’s initial turbulence, the relaxation of the flow in square and triangular pipes occurs faster than in a round channel. It is found that the initial intensity of turbulence leads to an increase in the averaged local heat transfer, which is typical of all investigated pipe configurations and initial conditions.

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Influence Mechanism of Gas–Containing Characteristics of Annulus Submerged Jets on Sealing Degree of Mixing Zone

Cited by 2 publications

References 27 publications

Research on Performance Optimization of Liquid Concentration Detection Systems Based on Turbulence Elimination

Research on Performance Optimization of Liquid Concentration Detection Systems Based on Turbulence Elimination

Stationary Gas Dynamics and Heat Transfer of Turbulent Flows in Straight Pipes at Different Turbulence Intensity

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