Nonlinear FEM based high‐speed shell shattering simulation for shelled edible agricultural products: Pecan fruit shattering

The mechanical damage of olive caused by harvesting machines is one of the main reasons for the quality reduction of produced olive oil. The hand-held rotary harvester (RH) is a machine that is used in small orchards extensively. The present paper focuses on utilizing the finite element method (FEM) to define the percentage of bruising damage by RH with two different materials of the head component (Ethylene Propylene Rubber and Neoprene). Three cultivars, ripening stage, and rotational speeds of RH head components were considered for experimental and simulation methods. The controlled impactor device was developed to validate the simulation process. The simulation and experimental results showed the Ethylene Propylene Rubber head produced less stress and bruise volume than the Neoprene head. Moreover, the quality characteristics of extracted olive oil, including free fatty acid, peroxide value, K232 and K270 coefficients, total chlorophyll, total carotenoid, total phenol, and total flavonoid were measured. Finally, the correlation of quality characteristics of olive oil, measured bruise volume and simulated was investigated using linear model and principal components analysis. Practical applicationsDespite the advancement of horticulture industries, the demand for optimization of agricultural machinery to decrease mechanical damage during the harvest process exists. The hand-held olive harvester causes the bruise phenomenon reduction, leading to decrease quality of extracted olive oil. In this research, the time-dependent finite element method based on dynamic-explicit was utilized to simulate the harvest process. The results show that using the numerical and statistical methods, the producer factories of olive harvester machines can optimize the devices to enhance the quality of harvested olive and extracted olive oil.

Section: Resultssupporting

confidence: 88%

Section: Introductionmentioning

confidence: 99%

Potential of finite element method to optimize the olive harvester machine (hand‐held rotary harvester)

Rashvand

Altieri

Genovese

et al. 2022

“…The bio-yield stress point revealed the bruise volume (Celik et al, 2017). The bio-yield stress of the controlled and treated samples was determined by a stress-strain graph (Figure 4b).…”

Section: Mechanical Propertiesmentioning

confidence: 99%

Effect of dielectric barrier discharge cold plasma on the bruise susceptibility of plum fruit

Rashvand

Hajizadeh

Akbarnia

et al. 2022

Tissue firmness is one of the most important factors in consuming fresh fruits. The firmness of the plum is the main parameter to purchase. This study aimed to investigate the effect of the dielectric barrier discharge (DBD) cold plasma method on the mechanical properties of plums during storage time. For this purpose, a tesla system and cold plasma generation by DBD were used. Plums were treated by plasma three times for 5, 10 and 15 min and then evaluated in five periods 1st, 5th, 10th, 15th and 20th days. Also, the simulation method was used to measure the plums' bruise volume (BV) and bruise susceptibility (BS). The simulated and experimental BV and BS values were compared, and the maximum relative difference were 13.12% and 10.18%, respectively. In addition, scanning electron microscopy (SEM) was utilized to investigate the microstructure of the tissue before and after the drop test. The results revealed that the DBD treatment of 5 and 15 min had a negative effect on the mechanical properties of the plums. While the DBD treatment of 10 had an acceptable impact on the trend of Young's modulus, bio yield stress, and tangent modulus during the storage time. This treatment enhances the resistance of the plums to deformation and reduces the BV and BS tendency caused by impact. Practical ApplicationsMechanical damage of fresh fruits in the postharvest process by processing plants reduces the quality of the product in terms of firmness. Therefore, customers are reluctant to buy products with unacceptable rigidity. Plum is one of the expensive fruits that is always influenced by mechanical damage in the procedure of processing such as sorting. Therefore, it seems necessary to provide a solution that maintains firmness and does not affect the chemical quality of the product. DBD cold plasma is an economical, fast and reliable method to maintain the firmness of fresh fruits.Although DBD cold plasma can preserve the mechanical properties of the fruits by disinfection, treatment time can have both positive and negative effects. In other words, the over-treatment time sometimes causes fruit tissue to loosen or lowtreatment time has been no significant difference. Therefore, it seems research on the effect of treatment time is essential. The results of this study can be useful for horticultural processing plants to increase fruit quality in terms of firmness.

“…The hexahedral sweep division was used to ensure the density of the model mesh, as shown in Figure 16 (Celik, 2017b;Celik, Caglayan, & Rennie, 2016;Logan, 2002). The contact between the blade and the garlic was set as a surface-to-surface erosion contact.…”

Section: Simulation Processmentioning

confidence: 99%

Design and parameters optimization of root cutting tool based on garlic numerical simulation model

Chen

Zhou

Jia

et al. 2021

To obtain the best tool parameters for garlic root cutting to reduce the root cutting force and improve efficiency, a linkage occlusion-cutting mechanism was designed for a garlic root cutting force test. The physical and mechanical properties of garlic meat and garlic skin were measured and calculated by using a universal material testing machine. A plastic follow-up model (MAT-3) in the LS-DYNA material library was used as a simulated garlic material model. A three-dimensional model of the garlic and the tool was established and imported into ANSYS/LS-DYNA to establish a garlic root cutting simulation model. The model was used for numerical calculation and analysis. The simulation parameters were optimized according to the actual cutting force change curve, and a reliable simulation model was obtained. The error between simulated result and actual measurement was 3.5%. Based on this reliable model, the effects of tool parameters on the root cutting force were explored. The optimal blade edge angle was 11 , the optimal blade back angle was 13 , and the cutting root force was reduced by 14.94%. The reliable model and optimal tool parameters provide a reference for the design and development of garlic root cutting equipment. Practical ApplicationsGarlic is popular worldwide because of its high nutritional value and unique flavor. A reliable numerical simulation model for garlic will encourage researchers to design garlic-processing equipment. The optimal tool parameters also provide a reference for garlic root cutting equipment.