{"title":"南苏拉威西省PT.地球能源Wajo Regency 3 Kg LPG管道重测器维修训练平衡分析","authors":"Reza Rezaldy, Lamatinulu Ahmad, M. Dahlan","doi":"10.56882/jisem.v1i1.1","DOIUrl":null,"url":null,"abstract":"PT. Bumi Trans Energi is one of the companies engaged in 3 Kg LPG cylinder retested repair, this company repairs 3 Kg LPG cylinders that have been damaged for 5 years, damage to the handguard, and footring, and welded joints on the tube. In the repair process, there are 5 stations and 21 work processes, PT. Bumi Trans Energi encountered a problem in the repair line at station 1, and a bottleneck occurred. This bottleneck occurs because the production flow is not smooth from one station to the next, this problem causes each work station in the repair path to have a different speed level, which causes material accumulation between work stations, and waiting times between work stations. For this reason, this study aims to determine the number of workstations needed to get maximum efficiency and balance the repair process line when bottlenecks occur. Observations were made in data collection 30 times, each work element was observed and calculated in the data uniformity test and data adequacy test to obtain standard time. The results of this study were the application of 3 work stations from 5 initial work stations, there was a reduction in idle time to 425,74 seconds ( 7 minutes) following the increase in track efficiency to 84,17 % the balance delay decreased to 15,83 %, and the Smoothness Index was 212,63. The actual idle time was 1004,97 seconds (17 minutes) while the proposed trajectory idle time used the Ranked Positional Weight method of 425,74 seconds (7 minutes). The difference between actual and proposed idle time is 10 minutes, and the placement of work elements at work station 1 (one) consists of 9 work operations, while work stations 2 (two) consist of 1 work process, and work stations 3 ( three ) consist of 8 work processes","PeriodicalId":367802,"journal":{"name":"Journal of Industrial System Engineering and Management","volume":"1 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2022-03-25","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Training Balance Analysis Of 3 Kg LPG Tube Retester Repair Using Ranked Positional Weight Method In PT. Earth Trans Energy Wajo Regency South Sulawesi Province\",\"authors\":\"Reza Rezaldy, Lamatinulu Ahmad, M. Dahlan\",\"doi\":\"10.56882/jisem.v1i1.1\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"PT. Bumi Trans Energi is one of the companies engaged in 3 Kg LPG cylinder retested repair, this company repairs 3 Kg LPG cylinders that have been damaged for 5 years, damage to the handguard, and footring, and welded joints on the tube. In the repair process, there are 5 stations and 21 work processes, PT. Bumi Trans Energi encountered a problem in the repair line at station 1, and a bottleneck occurred. This bottleneck occurs because the production flow is not smooth from one station to the next, this problem causes each work station in the repair path to have a different speed level, which causes material accumulation between work stations, and waiting times between work stations. For this reason, this study aims to determine the number of workstations needed to get maximum efficiency and balance the repair process line when bottlenecks occur. Observations were made in data collection 30 times, each work element was observed and calculated in the data uniformity test and data adequacy test to obtain standard time. The results of this study were the application of 3 work stations from 5 initial work stations, there was a reduction in idle time to 425,74 seconds ( 7 minutes) following the increase in track efficiency to 84,17 % the balance delay decreased to 15,83 %, and the Smoothness Index was 212,63. The actual idle time was 1004,97 seconds (17 minutes) while the proposed trajectory idle time used the Ranked Positional Weight method of 425,74 seconds (7 minutes). 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引用次数: 0
摘要
PT. Bumi Trans Energi是一家从事3kg LPG钢瓶复检维修的公司,该公司维修损坏5年的3kg LPG钢瓶,损坏的护手,脚和管道上的焊接接头。在维修过程中,共有5个工位,21个工作流程,PT. Bumi Trans Energi在1工位的维修线上遇到了问题,出现了瓶颈。这种瓶颈的发生是因为生产流程从一个工位到下一个工位不顺畅,这个问题导致维修路径上的每个工位有不同的速度水平,从而导致工位之间的物料积累,以及工位之间的等待时间。因此,本研究旨在确定在出现瓶颈时,获得最大效率和平衡维修流程线所需的工作站数量。数据采集观察30次,在数据均匀性检验和数据充分性检验中对各工作要素进行观察计算,得到标准时间。本研究的结果是,从最初的5个工位应用到3个工位,在轨道效率提高到84,17%后,空闲时间减少到425,74秒(7分钟),平衡延迟减少到15,83%,平滑指数为212,63。实际空闲时间为1004,97秒(17分钟),而建议的轨迹空闲时间使用排名位置权重法为425,74秒(7分钟)。实际空闲时间与建议空闲时间相差10分钟,工位1(1)的工件放置由9个作业组成,工位2(2)由1个工序组成,工位3(3)由8个工序组成
Training Balance Analysis Of 3 Kg LPG Tube Retester Repair Using Ranked Positional Weight Method In PT. Earth Trans Energy Wajo Regency South Sulawesi Province
PT. Bumi Trans Energi is one of the companies engaged in 3 Kg LPG cylinder retested repair, this company repairs 3 Kg LPG cylinders that have been damaged for 5 years, damage to the handguard, and footring, and welded joints on the tube. In the repair process, there are 5 stations and 21 work processes, PT. Bumi Trans Energi encountered a problem in the repair line at station 1, and a bottleneck occurred. This bottleneck occurs because the production flow is not smooth from one station to the next, this problem causes each work station in the repair path to have a different speed level, which causes material accumulation between work stations, and waiting times between work stations. For this reason, this study aims to determine the number of workstations needed to get maximum efficiency and balance the repair process line when bottlenecks occur. Observations were made in data collection 30 times, each work element was observed and calculated in the data uniformity test and data adequacy test to obtain standard time. The results of this study were the application of 3 work stations from 5 initial work stations, there was a reduction in idle time to 425,74 seconds ( 7 minutes) following the increase in track efficiency to 84,17 % the balance delay decreased to 15,83 %, and the Smoothness Index was 212,63. The actual idle time was 1004,97 seconds (17 minutes) while the proposed trajectory idle time used the Ranked Positional Weight method of 425,74 seconds (7 minutes). The difference between actual and proposed idle time is 10 minutes, and the placement of work elements at work station 1 (one) consists of 9 work operations, while work stations 2 (two) consist of 1 work process, and work stations 3 ( three ) consist of 8 work processes
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