Your search keyword '"Dunzhe Qi"' showing total 4 results

1. Study on Critical Velocity of Sand Transport in V-Inclined Pipe Based on Numerical Simulation

Author

Rao Yao, Dunzhe Qi, Haiyan Zeng, Xingxing Huang, Bo Li, Yi Wang, Wenqiang Bai, and Zhengwei Wang

Subjects

V-inclined pipe, sand transport, critical velocity, numerical simulation, Hydraulic engineering, TC1-978, Water supply for domestic and industrial purposes, TD201-500

Abstract

The Yellow River has a high sand content, and sand deposition in the pipelines behind the pumping station occurs from time to time. It is of great significance to reasonably predict the critical velocity of the small-angled V-inclined water transportation pipes. In this study, a Eulerian multiphase model was employed to simulate the solid–liquid two-phase flow. Based on the conservation of the sand transport rate, the critical velocity of the V-inclined pipe was predicted. The effects of simulated pipeline length, pipe inclination and particle size were investigated. The results show that when the simulated pipeline length reached a certain value, it did not affect the prediction of the critical velocity of the overall pipeline. The ±2∘ pipe inclination had a negligible effect on the critical velocity for transporting small-sized particles, but it led to the nonuniform and asymmetrical distribution of liquid velocity and sand deposition at the different cross-sections. As the particle size increased, the critical velocity also increased. However, the influence of particle size on the critical velocity is currently complicated, resulting in a large difference between numerical simulation and empirical formulas when transporting large-sized particles. Accurate prediction of critical velocity is important for long-distance water transportation pipelines to prevent sand deposition and reduce costs.

Published

2022

2. Research on Weak Vibration Characteristics Based on EMD and Design of MZI Classifier

Author

Hao Feng, Ming Wang, Zhou Sha, Lipu Du, and Dunzhe Qi

Subjects

Atomic and Molecular Physics, and Optics

Published

2023

3. Research on Sediment Laden Flow Characteristics in Water Conveyance System

Author

Dunzhe Qi, Huili Bi, Haiyan Zeng, Yubin Shen, and Zhengwei Wang

Subjects

General Medicine, General Chemistry

Abstract

In the long-distance water conveyance channels or pipelines of sediment laden flow, due to the change of the flow discharge, there may be different levels of siltation condition, and regular dredging work needs to be carried out. If the water conveyance channels are an open system, it is easier to dredge, but if it is a pressurized pipeline system, dredging is more difficult. Some water delivery irrigation projects of sediment laden flow could not be promoted due to the unresolved problem of siltation. This paper takes a long-distance gravity flow pipeline system as the research object. The distribution branch pipe on the main pipeline is connected to the downstream reservoir for field irrigation. According to the pipe data, the one-dimensional full pipeline numerical model and the three-dimensional pipe calculation model were established respectively. The flow velocity calculation of main pipeline under the condition of simultaneous irrigation of different numbers of distribution branch pipes, and the distribution of different velocities in the pipe was obtained. At the same time, the three-dimensional unsteady flow analysis was carried out to analyse the flow characteristics and siltation patterns in the main pipeline under different flow discharge. It is helpful to predict the silt phenomenon that may exist in the water pipeline in advance by calculation, and give technical suggestions for the pipeline design.

Published

2022

4. Numerical Simulation Prediction of Erosion Characteristics in a Double-Suction Centrifugal Pump

Author

Yan Liu, Wei Wang, Lijuan Xu, Dunzhe Qi, Zhengwei Wang, Yubin Shen, and Xijie Song

Subjects

particle track, Suction, Chemical technology, Process Chemistry and Technology, Flow (psychology), Bioengineering, TP1-1185, Mechanics, centrifugal pump, erosion, Centrifugal pump, Secondary flow, particle concentration, Volumetric flow rate, Chemistry, Impeller, Erosion, Chemical Engineering (miscellaneous), Environmental science, Particle, flow rate, impeller, QD1-999

Abstract

The double-suction centrifugal pumps installed along the Yellow River in China face serious sediment erosion due to the high sediment content which causes the poor operation efficiency of the pump units. The particle motion characteristics and erosion characteristics in a pump under different flow rates and different particle concentrations were numerically simulated based on the particle track model of solid-liquid two-phase flow. The results show that the flow rate has a significant effect on the particle tracks and the erosion caused by the particles in the impeller. The total erosion rate is positively correlated with the flow rate, and increases with the increase in flow rate. The vortex and secondary flow in the impeller have obvious influence on the particle trajectory, which increases the particle concentration at the trailing edge of the pressure surface and intensifies the impact erosion in this area. The particles carried by the vortex intensifies the local erosion. The particle concentration mainly affects the erosion rate, but has little effect on the erosion position. The influence of flow rate on pump erosion is greater than that of the particle properties. These results provide a reference for optimization of the design of anti-erosion blades of double-suction pumps and the regulation and operation of pumping stations.

Published

2021