Experiments on optimal maintenance operations with emphasis on end-of-contract constraints
Sammanfattning
To minimize the unnecessary costs that arise when machines or other objects fail, perhaps
needing to be replaced during less than ideal occasions through what is known
as reactive maintenance, a more active maintenance policy through which objects are
continuously maintained in a preventative manner based on life expectancy or from a
cost-perspective, is preferred. Mathematical models can be advantageous to utilize when
scheduling these maintenance occasion. No model has at this time been shown to be
the best within the sub field of Operations Research known as Maintenance Scheduling.
The purpose of this project is to, through the addition of constraints and simulation,
analyse two of the more prevalent models within this field: The Opportunistic Replacement
Problem(ORP) and The Preventative Maintenance Scheduling Problem with
Interval Costs(PMSPIC).
Results show that the set-up cost dt for large system in which costs are time independent,
i.e, dt = d, carry little influence over the resulting optimal schedule if the
quotient d
ci
, where ci is the replacement cost of a component, is small. The inverse is
shown to be true for systems consisting of a small number of components. It can thus be
inferred that greater focus should be put on product development to avoid unnecessarily
high maintenance costs in systems with few components and in which set-up costs are
comparatively high. A quantitative comparison of both models was, unfortunately, not
possible to perform due to time constraints. The results presented for the PMSPIC thus
take the form of a qualitative discussion of its theoretical properties and how it can be
likened to the ORP.
Examinationsnivå
Student essay
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Datum
2019-06-18Författare
Ahlman, Sebastian
Nilsson, Philip
Kamran, Tanha
Språk
eng