ISSN:
1355-2511
Source:
Emerald Fulltext Archive Database 1994-2005
Topics:
Technology
,
Economics
Notes:
Purpose - Maintenance is constantly challenged to increase productivity by maximizing up-time and reliability while at the same time reducing maintenance expenditure and investment. Traditional reliability models are based on detailed statistical analysis of individual component failures. For complex machinery, especially involving many rotable parts, such analyses are difficult and time-consuming. This paper aims to propose an alternative method for estimating and improving reliability. Design/methodology/approach - The methodology is based on simulating the up-time of the machine or process as a series of critical modules. Each module is characterized by an empirically derived failure distribution. The simulation model consists of a number of stages including operational up-time, maintenance down-time and a user-interface allowing maintenance and replacement decisions. Findings - Initial analysis performed on aircraft gas-turbine data yielded an optimal combination of modules out of a pool of multiple spares, resulting in an increased machine up-time of 16 percent. Practical implications - The benefits of this methodology are that it is capable of providing reliability trends and forecasts in a short time frame and is based on available data. In addition, it takes into account the rotable nature of many components by tracking the life and service history of individual parts and allowing the user to simulate different combinations of rotables and operating scenarios. Importantly, as more data become available or as greater accuracy is demanded, the model or database can be updated or expanded, thereby approaching the results obtainable by pure statistical reliability analysis. Originality/value - The model presented provides senior maintenance managers with a decision tool that optimizes the life cycle maintenance cost of complex machinery in a short time frame by taking into account the rotable nature of modules.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1108/13552510510626963
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