基于 DEM 的乳蝇接触参数实验与校准

IF 2.8 3区 工程技术 Q1 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS Computational Particle Mechanics Pub Date : 2024-08-13 DOI:10.1007/s40571-024-00801-3
Yuzhong Lou, Guochen Zhang, Xiuchen Li, Qian Zhang, Hanbing Zhang, Jiajia Zhao, Hangqi LI, Hao Wu, Zhuqiao Ye, Zhilei Zhang, Yuchao Zhou, Xiaojie Shang, Shuai Lv, Yizhi Chang, Gang Mu
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引用次数: 0

摘要

金眼鲷是中国滩涂水产养殖的优势品种。鱼芒离散元模型及其接触参数是水产养殖和加工设备优化设计与仿真研究的重要依据。通过实验测试和模拟校准相结合的方法,测量和校准了栉水母离散元模型的接触参数。研究测量了栉水母与不锈钢之间的碰撞恢复系数、静摩擦系数和滚动摩擦系数的范围。然后对分圆筒法、旋转圆筒法和单筒法颗粒表征测试方法进行了 Plackett-Burman 多因素显著性筛选测试。方差分析结果用于校准接触参数。碰撞恢复系数在 M. veneriformis-M. veneriformis 之间为 0.29,在 M. veneriformis-Stainless steel 之间为 0.28。经测定,M. veneriformis-M. veneriformis 之间的静摩擦系数为 0.41,M. veneriformis-Stainless steel 之间的静摩擦系数为 0.62,M. veneriformis-M. veneriformis 之间的滚动摩擦系数为 0.23,M. veneriformis-Stainless steel 之间的滚动摩擦系数为 0.16。校准后,使用侧板提升法进行了模拟试验,以验证栉水母离散元素的接触参数。结果表明,校准后的瓶形菌模拟倾角与真实倾角的误差为 4%,从而验证了瓶形菌的接触参数。本研究的结果可为今后有关马钱子播种、收获和加工设备的优化设计和模拟研究提供有价值的参考。所采用的研究方法可为尚未广泛研究的农业材料离散元素参数校准研究提供新的见解。
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Experiment and calibration of contact parameters of Mactra veneriformis based on DEM

Mactra veneriformis represents the dominant species in China’s mudflat aquaculture. The discrete element model of M. veneriformis and its contact parameters serve as an important basis for the optimization design and simulation study of aquaculture and processing equipment. The contact parameters of the discrete element model of M. veneriformis were measured and calibrated by a combination of experimental testing and simulation calibration. The study measured the range of collision recovery, static, and rolling friction coefficients between M. veneriformis and stainless steel. The Plackett–Burman multifactorial significance screening test was then conducted for the split-cylinder method, the rotate-cylinder method, and the single-cylinder method particle characterization test methods. The ANOVA results were utilized to calibrate the contact parameters. The collision recovery coefficient of 0.29 between M. veneriformisM. veneriformis and 0.28 between M. veneriformis–stainless steel. The coefficient of static friction of 0.41 was determined between M. veneriformisM. veneriformis, a coefficient of static friction of 0.62 between M. veneriformis–stainless steel, and a coefficient of rolling friction of 0.23 between M. veneriformisM. veneriformis and a coefficient of rolling friction of 0.16 between M. veneriformis–stainless steel. After calibration, simulation tests were conducted using the side plate lifting method to verify the contact parameters of the discrete elements of M. veneriformis. The results showed that the simulation angle of repose of the calibrated M. veneriformis had an error of 4% concerning the true angle, thus verifying the contact parameters of the M. veneriformis. The findings of this study can serve as a valuable reference for future research on the optimal design and simulation of the sowing, harvesting, and processing equipment of M. veneriformis. The research methodology employed can provide novel insights for research on discrete elemental parameter calibration of agricultural materials, which has not been extensively studied.

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来源期刊
Computational Particle Mechanics
Computational Particle Mechanics Mathematics-Computational Mathematics
CiteScore
5.70
自引率
9.10%
发文量
75
期刊介绍: GENERAL OBJECTIVES: Computational Particle Mechanics (CPM) is a quarterly journal with the goal of publishing full-length original articles addressing the modeling and simulation of systems involving particles and particle methods. The goal is to enhance communication among researchers in the applied sciences who use "particles'''' in one form or another in their research. SPECIFIC OBJECTIVES: Particle-based materials and numerical methods have become wide-spread in the natural and applied sciences, engineering, biology. The term "particle methods/mechanics'''' has now come to imply several different things to researchers in the 21st century, including: (a) Particles as a physical unit in granular media, particulate flows, plasmas, swarms, etc., (b) Particles representing material phases in continua at the meso-, micro-and nano-scale and (c) Particles as a discretization unit in continua and discontinua in numerical methods such as Discrete Element Methods (DEM), Particle Finite Element Methods (PFEM), Molecular Dynamics (MD), and Smoothed Particle Hydrodynamics (SPH), to name a few.
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