Identification of energetically critical processes for cocoa production in Santander, Colombia

Q1 Engineering

Periodicals of Engineering and Natural Sciences Pub Date : 2023-02-16 DOI:10.21533/pen.v11i1.3180

Camilo Leonardo Sandoval Rodríguez, Carlos Andres Angulo Julio, Arly Darío Rincón Quintero, J. A. Ascanio Villabona, O. Lengerke

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Abstract

The intensification of industrial activities in post-harvest cocoa processes has generated a disproportionate increase in energy consumption. The objective of this work is to describe those energetically critical ones that are used in the cocoa production line in Santander so that further research can evaluate the implementation of alternative or renewable energy systems. Through the collection of information and data management, it is seeking to promote the efficient use of energy based on the NTC ISO 500001. For this end, a description of the processes involved in the production of cocoa was made considering the technical data. Then, the energy consumed by the equipment used in the different processes was determined for 30 days, operating 24 hours a day, assuming power factors of 0.75 and 0.9. Finally, through analysis, calculations, and the application of the Pareto methodology, it was possible to identify that the process with the highest energy consumption is the cocoa refining step, since the equipment used in this process consumes more than 30% of energy from the total energy used for cocoa production.

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在哥伦比亚桑坦德鉴定可可生产的能量关键过程

可可收获后加工的工业活动加剧，导致能源消耗不成比例地增加。这项工作的目的是描述桑坦德可可生产线中使用的能源关键系统，以便进一步研究能够评估替代能源或可再生能源系统的实施情况。通过收集信息和数据管理，它正在寻求根据NTC ISO 500001促进能源的高效利用。为此，考虑到技术数据，对可可生产过程进行了说明。然后，假设功率因数为0.75和0.9，确定不同工艺中使用的设备在每天24小时运行的30天内消耗的能量。最后，通过分析、计算和帕累托方法的应用，可以确定能量消耗最高的过程是可可精炼步骤，因为该过程中使用的设备消耗的能量占可可生产总能量的30%以上。

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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来源期刊

Periodicals of Engineering and Natural Sciences Engineering-Architecture

CiteScore

1.90

自引率

0.00%

发文量

140

审稿时长

7 weeks

期刊介绍： *Industrial Engineering: 1 . Ergonomics 2 . Manufacturing 3 . TQM/quality engineering, reliability/maintenance engineering 4 . Production Planning 5 . Facility location, layout, design, materials handling 6 . Education, case studies 7 . Inventory, logistics, transportation, supply chain management 8 . Management 9 . Project/operations management, scheduling 10 . Information systems for production and management 11 . Innovation, knowledge management, organizational learning *Mechanical Engineering: 1 . Energy 2 . Machine Design 3 . Engineering Materials 4 . Manufacturing 5 . Mechatronics & Robotics 6 . Transportation 7 . Fluid Mechanics 8 . Optical Engineering 9 . Nanotechnology 10 . Maintenance & Safety *Computer Science: 1 . Computational Intelligence 2 . Computer Graphics 3 . Data Mining 4 . Human-Centered Computing 5 . Internet and Web Computing 6 . Mobile and Cloud computing 7 . Software Engineering 8 . Online Social Networks *Electrical and electronics engineering 1 . Sensor, automation and instrumentation technology 2 . Telecommunications 3 . Power systems 4 . Electronics 5 . Nanotechnology *Architecture: 1 . Advanced digital applications in architecture practice and computation within Generative processes of design 2 . Computer science, biology and ecology connected with structural engineering 3 . Technology and sustainability in architecture *Bioengineering: 1 . Medical Sciences 2 . Biological and Biomedical Sciences 3 . Agriculture and Life Sciences 4 . Biology and neuroscience 5 . Biological Sciences (Botany, Forestry, Cell Biology, Marine Biology, Zoology) [...]