Computer Aided Static Analysis of Frame and Theoretical Heat Conduction Model for Soya Milk Batch Pasteurizer

Okafor, Christian E. and Emumwen, E..M. and Enibe, S.O. (2016) Computer Aided Static Analysis of Frame and Theoretical Heat Conduction Model for Soya Milk Batch Pasteurizer. Scholars Journal of Engineering and Technology (SJET), 4 (12). pp. 560-569. ISSN ISSN 2321-435X (Online) Sch. J. Eng. Tech., 2016; 4(12):560-569 ISSN 2347-9523 (Print)

[img] Text
ComputerAidedStaticAnalysisofFrameandTheoreticalHeatConductionModelforSoyaMilkBatchPasteurizer.pdf - Published Version
Download (980kB)
Official URL: http://www.saspublisher.com/sjet/

Abstract

This study covers development of batch (holding) pasteurization equipment, in this method every milk particle is heated to at least 63°C and held for at least 30 minutes. The frame analysis was performed using computer aided design simulation software. The frame parts were modelled and assembled before being exported to the frame simulation environment to check the strength and the level of deformation on the frame. Material indices were derived for energy efficient soya milk batch pasteurizer to determine materials that can resist yielding and rusty condition when exposed to various working environment. Based on the material indices derived, CES software 2013 was used to generate graphs showing materials with adequate thermal conductivity, thermal diffusivity, specific heat capacity, density, yield strength and cost property. Considering the performance criterion, stainless steel and low carbon steel was favoured. The maximum von misses stress on the frame is 102.7Mpa, this value is less than the yield strength of the material of 322.5. Analysis of Variance for heat flow (Q) was carried out and the "Pred R-Squared" of 97.55% is in reasonable agreement with the "Adj R-Squared" of 99.46%. The response surface models developed represents the relationship between the response variable and predictor variables involving the quadric and interaction terms. The model showed that the heat flow (Q) decreases as insulation thickness of the side walls (X1) increases and that area of the walls (X2) has least influence on the variability of heat flow, it also indicates that the heat flow is optimum when insulation thickness of the side wall (X1) = 50mm, Area of the side wall (X2) = 12780 mm2 , and insulation thickness of the lid cover (X3) = 45mm. Above all, the result of the frame after FEA reveals the suitability and stability of the materials and the dimensions for the intended purpose. Keywords: Batch Pasteurizer, theoretical model, frame analysis, soya milk, material selection.

Item Type: Article
Subjects: Q Science > Q Science (General)
Depositing User: Mr DIGITAL CONTENT CREATOR LMU
Date Deposited: 08 Oct 2019 14:12
Last Modified: 08 Oct 2019 14:12
URI: https://eprints.lmu.edu.ng/id/eprint/2498

Actions (login required)

View Item View Item
Landmark University Repository is powered by EPrints 3 which is developed by the School of Electronics and Computer Science at the University of Southampton. More information and software credits.