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Statistical modeling and analysis of equipment maintenance time in the processing industry: a case study of rivatex east Africa limited

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dc.contributor.author Bett, Brian Kipchumba
dc.date.accessioned 2023-08-01T06:50:33Z
dc.date.available 2023-08-01T06:50:33Z
dc.date.issued 2023
dc.identifier.uri http://ir.mu.ac.ke:8080/jspui/handle/123456789/7903
dc.description.abstract Unexpected equipment failure in machines interrupts production schedules and creates costly downtime. Therefore, the importance of timely equipment maintenance is to extend the machine lifespan, prevent unplanned downtime, and reduce the need to buy equipment. Rivatex East Africa Limited (REAL) has an overcapacity of looms with inconsistent maintenance time schedules. The main objective of the research was to establish a suitable maintenance schedule time and parameters by assessing the state of maintenance practices of the critical equipment in the weaving section at REAL. The specific objectives were to map out the critical equipment in the weaving section, to model the time between maintenance operations and the number of failures and lastly, to synthesize the system data to establish an optimized maintenance schedule and parameters. The maintenance time schedules of rapier, and air-jet looms at REAL were studied. Data collections were by real-time observations, questionnaires, and interviews administered to 20 personnel using a simple random sampling method suitable for a small population. Semi-structured interviews had both predetermined and unplanned questions whereas both open and closed ended questionnaire were used. Failure mode and effect analysis, fishbone diagram, Weibull distribution, and Monte Carlo simulation were undertaken followed by regression analysis of the data. The setup of the Monte Carlo simulation entailed 1000 instances of the random values from the systems in the critical equipment. The data were optimized through Monte Carlos regression modeling and Weibull distribution analysis to get shape parameter and the scale parameter of 1.47 and 1683.46 hours. Regression analysis indicated that 95.50% of the variation in mean time between failures was due to total time and the number of failure variables in critical equipment systems. A preliminary survey on downtime indicated up to 60 days, the productivity was estimated at 194.76 meters, and efficiency was 90%. In conclusion, the findings indicated that weaving looms were the critical equipment. The model’s shape parameter of 1.47 described a steady increase in the risk of wear-out failure during the early life of the machines. Also, the value of the shape parameter suggested early wear-out failure and premature failures after installation. The optimal time interval for maintenance operations was 1683.46 hours from the scale parameter. The findings indicated that REAL’s looms had an inconsistent and incoherent maintenance time scheduling approach. According to the results, it is recommended that preventive maintenance schedules be done once every 1683.46 hours. Further research is recommended to investigate non-maintenance management strategy aspects of scheduling maintenance activities for industrial equipment, including unplanned/reactive maintenance, preventive maintenance, and predictive monitoring. en_US
dc.language.iso en en_US
dc.publisher Moi University en_US
dc.subject Industry en_US
dc.subject Maintenance en_US
dc.title Statistical modeling and analysis of equipment maintenance time in the processing industry: a case study of rivatex east Africa limited en_US
dc.type Thesis en_US


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