Analysis of the Screw Flight Wear Model and Wear Regularity of the Bulk Transport in Screw Ship Unloader

Yang, Wenyu; Meng, Weina; Gao, Lingchong; Tan, Yuanqiang; Fottner, Johannes; Dai, Xiaobing; Yao, Fenglin; Yuan, Yuan; Sun, Xiaodong

doi:10.1007/s40997-021-00422-8

Cited by 4 publications

(6 citation statements)

References 18 publications

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“…Consequently, this leads to higher wear rates in the screw model. Similarly to the findings in [42], where the vertical screw conveyor was studied we can compare the relationship between the rotation speed and the wear rate of the screw flight. We noted that with the increase in rotation speed, the trend of the wear rate increases, confirming the reported observations.…”

Section: Response Surfacementioning

confidence: 83%

“…Conversely, lower stiffness values, leading to overlaps exceeding 0.3%, resulted in smoother interaction and resistance. Due to computational limitations, the modulus was reduced, a decision supported by findings in articles [41,42], where a similar analysis was conducted with erosive sand of comparable sizes. Calibration based on these considerations provided a satisfactory approximation for entry data.…”

Section: Numerical Calibrationmentioning

confidence: 99%

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Innovative Approaches to Wear Reduction in Horizontal Powder Screw Conveyors: A Design of Experiments-Guided Numerical Study

Motaln,

Lerher

2024

Applied Sciences

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Numerical simulations play a vital role in the modern engineering industry, especially when faced with interconnected challenges such as particle interactions and the structural integrity of conveyor systems. This article focuses on the handling of materials and emphasizes the importance of using parametric numerical analysis to improve efficiency, reduce wear, and enhance the structural integrity of horizontal screw conveyors. Through the utilization of the Design of Experiments, we systematically investigated critical parameters such as screw pitch, clearance, wear, rotational velocity, and additional structural factors. This examination was carried out within a well-defined parametric framework, utilizing a combination of software tools provided by the Ansys suite and Minitab. The findings demonstrate the effectiveness of the Design of Experiments analysis in achieving improved performance and provide valuable insights for engineers and researchers involved in the design of conveyor systems. Furthermore, this comprehensive approach clarifies how conveyor systems respond to changes in parameters and highlights the complex interaction between transported particles and the conveyor system. We present a detailed analysis that clarifies the complex relationships and dependencies among different parameters, providing engineers and researchers with valuable insights. By understanding the interactions of these factors, the methodology provides not only results but also a strategic framework for advancing conveyor system design and engineering practices.

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Section: Response Surfacementioning

confidence: 83%

Section: Numerical Calibrationmentioning

confidence: 99%

Innovative Approaches to Wear Reduction in Horizontal Powder Screw Conveyors: A Design of Experiments-Guided Numerical Study

Motaln,

Lerher

2024

Applied Sciences

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“…1 to obtain △t=2.32×10 -5 s. The Rayleigh time step is usually set in the time step range of 5% to 40%. Therefore, the simulation time step is set to 4.64×10 -6 s, and the total simulation time is set to 10s, with data saved every 0.05s [24].…”

Section: Materials Parameters Valuementioning

confidence: 99%

“…Where, vz is the axis velocity of particles, n is the actual rotational speed, g is the acceleration of gravity, R is the external radius of screw blade, the friction coefficient of particles and internal cylinder wall μt is 0.4, the friction angle of particle and screw blade φk is 21.77° [24].…”

Section: Simulation Rationality Verificationmentioning

confidence: 99%

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The vertical screw conveying characteristics of cohesive particle and optimization of design parameters

Chen¹,

Zhang²,

Li³

et al. 2023

Eksploatacja i Niezawodność – Maintenance and Reliability

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The purpose of this paper is to solve the problem of low conveying efficiency and serious blade wear during vertical screw conveying of cohesive particles. Firstly, the reliability of DEM simulation was verified by comparing the simulated and theoretical values and the influence regularity of different design parameters (rotational speed, pitch, and clearance) on screw conveying characteristics were analyzed based on DEM. In addition, the effect of design parameters on the screw conveying characteristics is identified by ANOVA. Then, the multiobjective optimization model with the both of maximizing the average mass flow rate and minimizing the maximum wear depth of the blade was established using the polynomial fitting regression, which was solved by the non-dominated sorting genetic algorithm (NSGA-II). Finally, the comprehensive evaluation was used to determine the best design parameters. The above research results provide a certain reference for the study of cohesive particle’s vertical screw conveying characteristics and equipment optimization design.

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CFD–DEM Simulation of Dust Deposition on Solar Panels for Desert Railways

Zhang

Wang

et al. 2022

Applied Sciences

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With the greening of the railway energy supply chain, large-scale photovoltaic power stations will be the best choice to integrate with the railways. Understanding the deposition mechanisms and rules of dust grains on photovoltaic panels is of great guiding significance for the operation of photovoltaic (PV) power stations. In this paper, based on computational fluid dynamics (CFD) combined with the discrete element method (DEM), the dynamic dust deposition process on solar panels was simulated, and the flow field around solar panels and the movement of dust particles in the wind were calculated. The simulation results of clay particles (d = 10 mm) and fine sand particles (d = 100 mm) under different wind speeds showed that the clay particles could follow the air flow properly, and their deposition rate was only 4.6%, while the deposition rate of the fine sand particles was up to 32%, which was determined by the inflow wind speed and cohesion parameters. An image of the non-uniform distribution of particles on the panels was given in this paper for the first time. This will provide a basis for a more accurate assessment of the impact of dust accumulation on PV output in real-world environments. These results provide a critical reference for railway photovoltaic power supply development in desertification areas.

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Analysis of the Screw Flight Wear Model and Wear Regularity of the Bulk Transport in Screw Ship Unloader

Cited by 4 publications

References 18 publications

Innovative Approaches to Wear Reduction in Horizontal Powder Screw Conveyors: A Design of Experiments-Guided Numerical Study

Innovative Approaches to Wear Reduction in Horizontal Powder Screw Conveyors: A Design of Experiments-Guided Numerical Study

The vertical screw conveying characteristics of cohesive particle and optimization of design parameters

CFD–DEM Simulation of Dust Deposition on Solar Panels for Desert Railways

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