Assessing Material Consumption Due to Spare Part Utilization by Harvesters and Forwarders

D. Athanassiadis, G. Lidestav, I. Wästerlund
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引用次数: 10

Abstract

Abstract The aim of this study was to i) develop and examine a methodology to handle spare part utilization data for work machinery for future inclusion into a life cycle assessment study and ii) assess the material consumption per 1000 m3ub harvested and transported to the roadside due to spare part utilization by three types of forest machinery. Thirteen forwarders, 14 single-grip harvesters and 10 two-grip harvesters operating in northern Sweden were followed up by repair records that covered a period from half a year up to 3.5 years. The replaced machine components were sorted in seven material categories - steel and iron, aluminum, other metals (brass, copper), plastics, rubber, glass and batteries. Two scenarios with different assumptions on the consumption of saw chains, guide bars and tires were developed. According to the low scenario about 46 kg of material will be consumed for harvesting and transporting 1000 m3ub to the roadside. The corresponding figure for the high scenario is 58 kg. The total component mass expected to be replaced during the operational lifetime (18000 E15 hours) of the machines was also calculated. According to the low scenario 38- 45% of the mass of a machine will be changed during its operational lifetime. The corresponding figure for the high scenario is 50-56%.
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评估收割机和货代因备件使用而产生的材料消耗
本研究的目的是i)开发和检验一种方法来处理工作机械的备件利用率数据,以便将来纳入生命周期评估研究;ii)评估三种类型的森林机械的备件利用率,每1000 mub收获和运输到路边的材料消耗。在瑞典北部操作的13个货轮,14个单握柄收割机和10个双握柄收割机进行了维修记录,涵盖了半年到3.5年的时间。被替换的机器部件分为7类材料——钢铁、铝、其他金属(黄铜、铜)、塑料、橡胶、玻璃和电池。分别对锯链、导杆和轮胎的消耗进行了假设。根据较低的情况,收集和运送1000立方米到路边将消耗约46公斤的材料。在高场景下对应的数字是58公斤。还计算了在机器运行寿命(18000 E15小时)内预计更换的总部件质量。根据低情景,机器质量的38- 45%将在其使用寿命期间发生变化。高场景为50 ~ 56%。
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来源期刊
European Journal of Forest Engineering
European Journal of Forest Engineering Agricultural and Biological Sciences-Forestry
CiteScore
1.30
自引率
0.00%
发文量
6
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