Improving Energy Efficiency in a Synchronized Road-Transportation System by Using a TFMC (Transportation Fleet-Management Control) in Finland

IF 0.5 Q4 ENERGY & FUELS

Advances in Energy Research Pub Date : 2019-02-19 DOI:10.3390/EN12040670

T. Palander, K. Kärhä

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引用次数: 11

Abstract

Previous studies have suggested that the use of high-capacity transportation (HCT) can lead to low-carbon road-transportation in the forest industry. This study shows the impacts (in terms of energy efficiency) of a three-year adaptation process of transportation (2014–2016) towards HCT that took place in a synchronized transportation system (STS). The use of three transportation fleet-management control (TFMC) methods was analyzed in various road infrastructures. Energy-efficiency calculations were undertaken based on the HCT vehicles’ mass limits (64, 68 and 76 t). The use of 76 t vehicles increased energy efficiency by 13.4% and reduced CO2 emissions by 3.5% (to 49.6 g/tkm). In addition, the results show that the energy efficiency of the STS could be improved by a further 3.1%. In this respect, the proposed TFMC was used to adjust the STS towards vehicle-group transportation while meeting the road-class constraints of local wood supply chains. Forest-industry companies in Finland and abroad can use the tailored TFMC to optimize the STS in the near future and to achieve the energy-efficient STS and the regulations of the European Commission in wood-procurement logistics.

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芬兰使用TFMC(运输车队管理控制)提高同步道路运输系统的能源效率

以前的研究表明，使用高容量运输(HCT)可以导致森林工业的低碳道路运输。本研究展示了在同步运输系统(STS)中发生的为期三年的运输适应过程(2014-2016年)对HCT的影响(在能源效率方面)。分析了三种运输车队管理控制(TFMC)方法在不同道路基础设施中的应用。根据HCT车辆的质量限制(64,68和76 t)进行了能效计算。76 t车辆的使用提高了13.4%的能效，减少了3.5%的二氧化碳排放量(为49.6 g/tkm)。此外，结果表明，STS的能源效率可以进一步提高3.1%。在这方面，提议的TFMC被用来调整STS向车辆组运输，同时满足当地木材供应链的道路类约束。芬兰和国外的森林工业公司可以在不久的将来使用量身定制的TFMC来优化STS，并实现节能的STS和欧洲委员会在木材采购物流方面的规定。

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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Advances in Energy Research ENERGY & FUELS-

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