Abstract
PurposeThe purpose of this paper is to describe a methodology that has been set up to schedule predictive maintenance of distribution transformers at Cauca Department (Colombia) using machine learning.Design/methodology/approachThe proposed methodology relies on classification predictive model that finds the minimal number of distribution transformers prone to failure. To verify this, the model was implemented and tested with real data in Cauca Department Colombia.FindingsThe implementation of the methodology allows a saving of 13% in corrective maintenance expenses for the year 2020.Originality/valueThe proposed model is an effective decision-making tool that provides an ideal solution for preventive maintenance scheduling problems for distribution transformers.
Subject
Industrial and Manufacturing Engineering,Strategy and Management,Safety, Risk, Reliability and Quality
Reference23 articles.
1. Machine learning in predictive maintenance towards sustainable smart manufacturing in industry 4.0;Sustainability,2020
2. A zero-one integer programming for preventive maintenance scheduling for electricity and distiller plants with production;Journal of Quality in Maintenance Engineering,2019
3. An industrial case study using vibration data and machine learning to predict asset health,2018
4. A research study on unsupervised machine learning algorithms for early fault detection in predictive maintenance,2018
5. Design and development of a wind turbine test rig for condition monitoring studies,2015
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