Simulation-based analytical design for aluminium recycling processing plant-Reference-Cited by-同舟云学术

Simulation-based analytical design for aluminium recycling processing plant

Published:2021-08-10 Issue:1 Volume:15 Page:8-22
ISSN:2064-7964
Container-title:Analecta Technica Szegedinensia
language:
Short-container-title:Anal. Tech. Szeged.

Author:

Ojo Oluwole Timothy¹,Olugbade Temitope Olumide¹^ORCID,Omiyale Babatunde Olamide¹^ORCID

Affiliation:

1. Federal University of Technology, Akure, Ondo State, Nigeria

Abstract

Indiscriminate disposal of beverage cans as waste poses a great threat to the environment, causing flooding, landfill, and blockage of drainages, leading to land pollution and sometimes accident. Hence, there is a need to design a system capable of converting these wastes into usable products. In this study, a simulation-based analytical design for aluminum recycling processing plant was carried out to ascertain the efficiency and reliability of the design before fabrication using finite element analysis (FEA) approach. The simulation results revealed a lesser maximum stress of 6.323 MPa for the furnace outer casing under the action of load with a displacement of 0.0795 mm. The stress of the machine components is less than the yield strength of the selected materials, making the machine fit and workable. The analytical results agree with the numerical analysis; hence the conceptual design is fit for fabrication based on the design analysis and evaluation. After the design analysis and simulation, the designed recycling process plant parts are found to be under negligible deflection and stress which is far below the yield strength of chosen materials.

Publisher

University of Szeged

Reference33 articles.

1. E.E. Ekpe, S.B. Yahaya, F. Achema, O.M. Fabiyi, Design and fabrication of aluminium melting furnace using locally available materials, Journal of Scientific and Engineering Research, 2, (2015), 36-43.

2. K.A. lsaffar, M.H. Bdeir, Recycling of aluminium beverage cans. Journal of Engineering and Development 12, (2008), 157- 163.

3. V.S. Meriga, A.D. Boyina, C. Vandana, Design and fabrication of low-cost electrical resistance based metal melting furnace for casting applications, Leonado Electric Journal of Practices and Technology, 32, (2018), 41-54.

4. B. Abdullah, B. Seyfettin, Flow and heat transfer investigation of a circular jet issuing on different types of surfaces, Sådhanå, 44, (2019), 242. https://doi.org/10.1007/s12046-019-1226-6

5. T.O. Olugbade, T.I. Mohammed, O.T. Ojo, Static stress analysis and displacement of a tricycle rear shock absorber using finite element analysis, Leonardo Electronic Journal of Practices and Technologies, 33, (2018), 139-158.

Cited by 2 articles. 订阅此论文施引文献订阅此论文施引文献，注册后可以免费订阅5篇论文的施引文献，订阅后可以查看论文全部施引文献

1. Review: Corrosion Resistance Performance of Severely Plastic Deformed Aluminium Based Alloys via Different Processing Routes;Metals and Materials International;2023-03-04

2. Stress-Corrosion and Corrosion-Fatigue Properties of Surface-Treated Aluminium Alloys for Structural Applications;Chemistry Africa;2023-01-27