Maintenance Management

Base Knowledge

The basic knowledge is transversal, namely at the level of fundamental engineering sciences and areas of the specialty of the Master, at the level of Graduate and, desirably, with some kind of professional experience, aiming to allow the students to have an enlarged view in understanding and applying the wide spectrum of Industrial Maintenance, with emphasis on Maintenance Organization and Management.

Teaching Methodologies

The teaching methodology with the following approach:

•Presentation of subjects by the teacher;
•Presentation of case studies by students;
•Lectures by professionals from the industry.

Learning Results

To give to the graduates a high level of competences in Maintenance Management, according to the state-of-the-art of this Knowledge Area. These overall objectives are achieved through the following specific objectives:

•To learn the tools of Maintenance Management of Physical Assets that allow to optimize the costs of their life cycles, namely in operation;
•To learn the management tools that allow to optimize the acquisitions and substitutions of the Physical Assets;
•To learn the tools to diagnose the maintenance status that help to organize a maintenance department considering the following:
othe maintenance organization;
othe cross-management tools;
othe new management models.
•To learn how to use the maintenance standards that allow the certification of maintenance services and providers;
•To learn how to use dynamic modelling techniques that allow to solve complex problems of maintenance, namely for failure situations.

Program

THE NOWADAYS MAINTENANCE FUNCTION – Importance of the maintenance function to manage the Life Cycle Cost of Physical Assets.

 MANAGEMENT OF THE LIFE CYCLE OF THE PHYSICAL ASSETS – Equipment Acquisition: Preparation of the Terms of Reference – Selection – Reception and Installation – Commissioning – Training of Users; Equipment Replacement: Calculation Methods in Replacement – Linear Depreciation Method – Sum of Digits Method – Exponential Method; Determination of Replacement Time: Determination of the Replacement Economic Cycle – Useful Life Method.

 DIAGNOSIS OF THE MAINTENANCE STATUS – Holistic Method of Diagnosis; Organization and analysis of the information collected; Establishment of an improvement action plan.

 MAINTENANCE STANDARDS – Norm NP 4492 and Support Norms: NP 4483 – NP EN 13269 – NP EN 13306 – NP EN ISO 9000 – NP EN 13460 – NP EN 15341 – CEN/TR 15628.

 ASSET MANAGEMENT STANDARDS – ISO 55000; ISO 55001; ISO 55002.

 DYNAMIC MODELING – Fault Trees: General Description of the Method – Types of Faults Analyzed by the Method – Application of the Method; Markov Chains: General Description of the Method. Petri Nets: General Description of the Method; Elementary Petri Nets.

 

Curricular Unit Teachers

Grading Methods

Avaliação Por Exame
  • - Avaliação Por Exame - 100.0%
Avaliação Contínua
  • - Avaliação Contínua - 100.0%

Internship(s)

NAO

Bibliography

•FARINHA, J. M. T. (2018): Asset Maintenance Engineering Methodologies. CRC Press; 1st edition (May 29, 2018). English. Printed in USA. ISBN-10: 1138035890. ISBN-13: 978-1138035898
•FARINHA, J. M. T. (2011): Manutenção – A Terologia e as Novas Ferramentas de Gestão. MONITOR, Lisboa, Portugal. ISBN 978-972-9413-82-7.
•EBELING, Charles E. (2019): An Introduction to Reliability and Maintainability Engineering. Waveland Press, Incorporated. ISBN 147863734X, 9781478637349
•FERREIRA, L. A. (2021) Uma Introdução à Manutenção. 2ª Edição, Engebook. ISBN: 9789898927712
•ASSIS, R. (2014): Apoio à Decisão em Manutenção na Gestão de Ativos Físicos. Lidel. ISBN 9789897521126. EAN 978-9897521126.
•NP 4492; NP 4483; NP EN 13269; NP EN 13306; NP EN 13460; NP EN 15341; CEN/TR 15628.
•Scientific papers indexed SCOPUS/ISI.