基于综合k -均值和线性最小区位模型的生物燃料供应链木材收集点分析

2022 Research, Invention, and Innovation Congress: Innovative Electricals and Electronics (RI2C) Pub Date : 2022-08-04 DOI:10.1109/RI2C56397.2022.9910280

K. Ransikarbum, Sreenath Chalil Madathil

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引用次数: 3

摘要

由于不断增长的能源需求和对全球环境影响的关注，生物燃料最近被用作化石燃料的替代品。特别是生物质，它是泰国一种重要的生物燃料来源，作为一项国家可再生能源计划引起了人们的兴趣。本研究以泰国北部地区为研究对象，采用K-means和线性最小选址模型对木材采集点问题进行综合评价。最初，使用K-means分类方法根据全国运动对一组在其区域内种植速生树木以供能源使用的农民进行分类。然后，随后使用线性最小位置模型来评估木材收集点的合适位置，以收集木材并为生物燃料供应链的后续过程生产木屑。我们的初步研究提供了有希望的结果，并受到可持续目标生物燃料供应链模型的持续发展的影响。

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Analysis of Wood Collection Site in the Biofuel Supply Chain using Integrated K-means and Rectilinear Minisum Location Model

Biofuel energy has recently been used as a substitute for fossil fuels due to an increasing energy demand and a concern for environmental impact around the globe. Biomass, in particular, is a key type of biofuel source in Thailand that has been of interest as a national renewable energy plan. In this research, we use the integrated K-means and Rectilinear Minisum Location model to evaluate the wood collection site problem using an actual case study of the Northern part of Thailand. Initially, the K-means classification method is used to classify a group of farmers growing fast-growing trees for energy use in their regional area according to the national campaign. Then, the Rectilinear Minisum Location model is later used to evaluate a proper location for wood collection site to collect wood and produce wood chip for subsequent process of the biofuel supply chain. Our initial study provides promising result and is subject to the on-going development of the sustainable aiming biofuel supply chain model.

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2022 Research, Invention, and Innovation Congress: Innovative Electricals and Electronics (RI2C)

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