Jedes Modul umfasst 3 ECTS. Sie wählen insgesamt 10 Module/30 ECTS in den folgenden Modulkategorien:
- 12-15 ECTS in Technisch-wissenschaftlichen Modulen (TSM)
TSM-Module vermitteln Ihnen profilspezifische Fachkompetenz und ergänzen die dezentralen Vertiefungsmodule. - 9-12 ECTS in Erweiterten theoretischen Grundlagen (FTP)
FTP-Module behandeln theoretische Grundlagen wie die höhere Mathematik, Physik, Informationstheorie, Chemie usw. Sie erweitern Ihre abstrakte, wissenschaftliche Tiefe und tragen dazu bei, den für die Innovation wichtigen Bogen zwischen Abstraktion und Anwendung spannen zu können. - 6-9 ECTS in Kontextmodulen (CM)
CM-Module vermitteln Ihnen Zusatzkompetenzen aus Bereichen wie Technologiemanagement, Betriebswirtschaft, Kommunikation, Projektmanagement, Patentrecht, Vertragsrecht usw.
In der Modulbeschreibung (siehe: Herunterladen der vollständigen Modulbeschreibung) finden Sie die kompletten Sprachangaben je Modul, unterteilt in die folgenden Kategorien:
- Unterricht
- Dokumentation
- Prüfung
In today's rapidly evolving world, infrastructure assumes a crucial role in shaping the way societies function and progress. Roads, railways, bridges, energy grids, machines, and digital networks all contribute to the foundation of modern society. Managing the lifecycle of these infrastructures becomes a critical discipline, ensuring their reliability, sustainability, and adaptability over time. Various stakeholders face complex relationships and goals when making decisions related to infrastructure management. This module introduces students to the multifaceted and strategic aspects of planning, building, operating, and maintaining these essential systems.We discuss established models for analyzing construction and maintenance strategies of technical infrastructures, aiming to develop sustainable measures.
We learn how each phase of infrastructure lifecycle contributes to the overall success and sustainability of infrastructure projects. We first present basic cost-based methods for assessing cost-efficient maintenance and replacement strategies. With the introduction of benefits, we are then able to conduct comprehensive cost-benefit analyses (CBA) - the basis of life-cycle cost analysis (LCC). Life Cycle Assessment (LCA) methods complement these methodologies by focusing on environmental sustainability, energy efficiency, and resilience concepts - challenging aspects of every infrastructure manager today.
In the second part, we introduce fundamental maintenance concepts, including Reliability, Availability, and Maintainability (RAM). We delve into topics such as the behavior of systems and components regarding failure and degradation, as well as the concept of hazard rates. We examine maintenance strategies to provide insights into optimal decision-making and replacement strategies. Additionally, we explore predictive maintenance concepts using Remaining Useful Life (RUL) to maximize asset reliability. We learn about methods that are applied within large asset portfolios, and we explore methodologies like Reliability Centered Maintenance (RCM) and Risk-based maintenance.
Eintrittskompetenzen
Basic knowledge in mathemetics (introductory lecture in analysis and linear algebra), basic knowledge in probability theory
MS Excel (implementation of formulae, graphs)
Lernziele
- the students understand the function and the benefit of infrastructures, and their effect on society, economy, and environment
- the students are familiar with the challenges for sustainable development of infrastructures and strategic decision-making
- the students are familiar with the most important methods for decision making in infrastructure management
- the students are able to assess the financial viability of potential investments, projects, or initiatives by quantifying their costs and benefits over a specified time frame; including the calculation of Net Present Values (NPV), annuities, and Internal Rate of Return (IRR)
- the students are able to conduct basic cost-benefit analysis (CBA) themselves and they are able to understand comprehensive cost-benefit analyses.
- the students are familiar with the different maintenance strategies (reactive, preventive, condition-based)
- the students know different models of failure and wear behavior, and can apply them
- students know the concepts of reliability theory
- the students are familiar with the method of risk-based maintenance, and can apply this method for maintenance management
- the students are able to apply all those methods in concrete cases; for example the calculation of life cycle costs or socio-economic impact, or the simultaneous minimization of costs and risks.
Modulinhalt
- Basic concepts
- introduction into the infrastructure networks of electricty, water, road, and rail
- concepts of cost and benefit assessment
- standards for life cycle management
- Infrastructure costs
- life cycle costing
- maintenance and replacement strategies for cost minimization
- Assessment methods
- cost-benefit analyses
- monetary models of benefit and their limits
- utility analysis and cost effectiveness analysis
- Basic concepts of Maintenance - RAM
- Reliability, Availability and Maintainability (RAM) models and calculations
- Failure and degradation behavior of systems and components, Hazard rate
- Maintenance management
- Optimal decision making and replacement strategies in maintenance
- Maintenance management in large asset portfolios
- Reliability Centered Maintenance (RCM)
- Risk based maintenance
- Maintenance Strategies
- Corrective, preventive maintenance approaches
- Condition based maintenance and approaches to fault detection (Anomaly detection) with multivariate datasets
- Predictive Maintenance concepts using Remaining useful life (RUL)
Lehr- und Lernmethoden
Lecture: Introduction in the relevant concepts with examples
Exercises: applications and use cases
Bibliografie
Supplementary publications. No book that we follow
Note: Since part of the module content is based on Swiss standards, some literature is provided in German/French only.
Vollständige Modulbeschreibung herunterladen
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