Effects of Different Loads Applied on a Newly-Designed Container for Oyster Grow-Out Culture Using Finite Element Analysis

Q2 Agricultural and Biological Sciences International Review of Mechanical Engineering Pub Date : 2023-06-30 DOI:10.15866/ireme.v17i6.23532

Arzul Arifin, Mohd Asri Yusuff, Nur Leena Wong Wai Sin, Kamarul Arifin Zakaria

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Abstract

In general, oyster culture in Malaysia relies on traditional methods. This study focused on the grow-out stage, particularly on the containers used to hold the oysters during this phase. The existing containers are in the form of modified plastic baskets, which are not fully covered for protection against predators, with only a single layer production. The newly-designed container consists of multilevel stacks, with a door that can be closed and locked. A mechanical simulation analysis was conducted to ensure the structure could hold the intended recommended maximum working loads of 25 kg. A series of different loads and water current speeds were applied to the structure of the new oyster container. Results of the analysis conducted showed the stress value increased when the loads increased, for all panels, the highest being 6.66 MPa, under a load of 50 kg and water current speed of 0.6 m/s. However, the all-stress values obtained for all panels were well below the yield strength of the polypropylene material used. Thus, the new oyster container structure was proven to be safe and sound under the different applied loads, making it reliable to operate.

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新设计的牡蛎生长培养容器不同载荷作用的有限元分析

一般来说，马来西亚的牡蛎养殖依靠传统方法。这项研究的重点是生长阶段，特别是在这个阶段用来容纳牡蛎的容器。现有的容器采用改良的塑料篮子的形式，没有完全覆盖以防止捕食者，只有单层生产。新设计的集装箱由多层堆叠组成，有一个可以关闭和锁定的门。进行了力学模拟分析，以确保该结构能够承受25kg的推荐最大工作载荷。对新型牡蛎容器的结构进行了一系列不同载荷和水流速度的试验。分析结果表明，当荷载为50 kg、水流速度为0.6 m/s时，各面板的应力值均随荷载的增大而增大，应力值最高为6.66 MPa。然而，所有面板的所有应力值都远远低于所使用的聚丙烯材料的屈服强度。因此，新型牡蛎容器结构在不同荷载作用下是安全可靠的，运行可靠。

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来源期刊

International Review of Mechanical Engineering Engineering-Mechanical Engineering

CiteScore

1.90

自引率

0.00%

发文量

期刊介绍： The International Review of Mechanical Engineering (IREME) is a peer-reviewed journal that publishes original theoretical and applied papers on all fields of mechanics. The topics to be covered include, but are not limited to: kinematics and dynamics of rigid bodies, vehicle system dynamics, theory of machines and mechanisms, vibration and balancing of machine parts, stability of mechanical systems, computational mechanics, advanced materials and mechanics of materials and structures, plasticity, hydromechanics, aerodynamics, aeroelasticity, biomechanics, geomechanics, thermodynamics, heat transfer, refrigeration, fluid mechanics, energy conversion and management, micromechanics, nanomechanics, controlled mechanical systems, robotics, mechatronics, combustion theory and modelling, turbomachinery, manufacturing processes, new technology processes, non-destructive tests and evaluation, new and important applications and trends.