Department of Engineering
Dean:Dr. Ármann Gylfason
Email:ru@ru.is
Website:http://www.ru.is/tvd
TeachersView
MSc in Biomedical Engineering
Semesters:4
Years:2
ETCS:120
About majorÍ heilbrigðisverkfræði er verkfræðilegum aðferðum beitt til að fást við líffræðileg og læknisfræðileg viðfangsefni, s.s. uppgötvun og þróun nýrrar tækni og aðferða við greiningu og meðferð sjúkdóma. Hér sameinast ólíkar greinar eins og stærðfræði og eðlisfræði við sameindalíffræði og lífeðlisfræði í leit að lausnum heilsufarslegra viðfangsefna. MSc námið er mótað að kröfum Verkfræðingafélags Íslands um fullnaðarmenntun í verkfræði.
Learning OutcomesView
Education cycle2
Degree titleMSc in Biomedical Engineering
Legend
Mandatory course on majorTeaching language
Optional course on majorPrerequisites for course
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Vorönn/Spring 2024
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More infoStability and Control in Electric Power SystemsElectiveT-867-STABECTS 8
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Sumar/Summer 2024
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Haustönn/Fall 2024
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Vorönn/Spring 2025
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Year
1. yearPrint
SemesterSpring 2025
Level of course6. Second cycle, advanced
Type of courseElective
PrerequisitesNo prerequisites.
ScheduleNo schedule found.
Lecturer
Ragnar Kristjánsson
Content
Symmetrical components, Modelling of transformers, lines and cables in the positive, negative and zero sequences based on physical models, The impact of different earthing principles, Methods for power system analysis in steady state operation and during grid faults, Faulty system operation, balanced and unbalanced faults, Symmetrical components and unbalanced fault analysis, Basic protective methods and principles, Load flow calculations in steady-state power system analysis, Model complex power system operation issues for economic and secure operation, Load flow calculations in steady-state power system analysis, Model complex power system operation issues for economic and secure operation, Principles for regular power flow and optimal power flow methods, Power system operation principles and basic functions in energy management system. Optimization techniques to solve fundamental operation problems, N -1 steady state contingency analysis, Transmission lines Transient operation, Insulation coordination, Power system state estimation and the incorporation with phasor measurement units; (Smart Grids). Practical assignments solved in the numerical simulation program Power World.Reading Material: Power System Analysis and Design Sl edition, 6th edition J.Duncan Glover
Learning outcome - Objectives
Knowledge: By the end of the course, the students will be able to;• Explain and use the mathematical formulation and use of symmetrical components. • Model transformers, lines and cables in the positive, negative and zero sequences based on physical models• Explain the impact of different earthing principles, • Explain the main principles for modelling and analysis of power systems subject to symmetrical and unsymmetrical faults, • Describe faulty system operation, balanced and unbalanced faults;• Understand and explain basic protective methods;• Use and explain principles for regular power flow and optimal power flow methods, • Describe power system operation principles and basic functions in energy management system. Skills: By the end of the course, the students will be able to;• Apply methods for power system analysis in steady state operation and during grid faults• Apply symmetrical components for unbalanced fault analysis;• Apply basic system protection principles;• Perform load flow calculations and use them for steady-state power system analysis;• Model complex power system operation issues for economic and secure operation;• Apply optimization techniques to solve fundamental operation problems;• Perform N-1 steady state contingency analysis;• Perform basic transmission lines transient operation calculations• Apply basic methods of Insulation coordination.Competence: By the end of the course the students will be able to;• Describe, formulate, model and simulate in general power system operation main issues, including power flow calculations, unbalanced faults calculations, system protection and basic insulation coordination and simple transient calculation.• Validate general power system operation issues, calculation and simulations outcome. 
Course assessment
Written exam, project.
Reading material
No reading material found.
Teaching and learning activities
Lectures and practical sessions.
Language of instructionEnglish
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