Identifying Optimal Conceptual Design of a Briquetting Machine

Current Journal of Applied Science and Technology Pub Date : 2024-02-16 DOI:10.9734/cjast/2024/v43i34359

Philip E. Vincent, O. M. Olabanji, P.K Farayibi, Jegede J. Oluwaseun

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Abstract

Briquetting is a mechanical compaction process for increasing the density of bulky materials. Briquette is an example of biomass which is a renewable source of energy. As the world turn to renewable energy due to global warming, depletion of fossil fuel reserves and deforestation. The demand for briquetting machines is on the increase. This high demand and large market for briquetting machines has result in the need for briquetting machines with extended capabilities and design customization. This calls for an elaborate conceptual design phase. This research adopts a fuzzified Multi Criteria Decision Making (MCDM) model, (COPRAS) to identify the optimal conceptual design from four conceptual designs of briquette making machine, operating based on different principles. This was achieved by considering eight (8) design features and their sub features as the criterion to analyze, evaluate and measure the four conceptual designs. The result shows that in applying the COPRAS-F model, several decision makers choice can be factored into the process of choosing an optimal design, from a group of designs and still generate a valid result.

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确定压块机的最佳概念设计

压块是一种机械压实工艺，用于提高大块材料的密度。压块是生物质能的一个例子，而生物质能是一种可再生能源。由于全球变暖、化石燃料储备枯竭和森林砍伐，全世界都在转向使用可再生能源。对压块机的需求不断增加。煤球机需求量大、市场广阔，因此需要具有扩展功能和定制设计的煤球机。这就要求在概念设计阶段进行精心设计。本研究采用模糊化多标准决策（MCDM）模型（COPRAS），从基于不同原理运行的四种煤球机概念设计中确定最佳概念设计。这是通过将八（8）个设计特征及其子特征作为分析、评估和衡量四个概念设计的标准来实现的。结果表明，在应用 COPRAS-F 模型时，从一组设计中选择最佳设计的过程中可以考虑多个决策者的选择，并且仍然可以产生有效的结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Current Journal of Applied Science and Technology

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