Department of Engineering
Dean:Dr. Ármann Gylfason
Email:ru@ru.is
Website:http://www.ru.is/tvd
TeachersView
MSc in Financial Engineering
Semesters:4
Years:2
ETCS:120
About majorFjármálaverkfræði er þverfagleg grein sem samþættir fjármálafræði við verkfræðilegar aðferðir, stærðfræðileg líkön, tölfræði, aðgerðagreiningu og hagnýta tölvunarfræði. Nám í fjármálaverkfræði hentar þeim sem hafa áhuga á t.d. áhættustýringu, afleiðuviðskiptum eða fjárstýringu. MSc námið er mótað að kröfum Verkfræðingafélags Íslands um fullnaðarmenntun í verkfræði.
Learning OutcomesView
Education cycle2
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Mandatory course on majorTeaching language
Optional course on majorPrerequisites for course
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Vorönn/Spring 2024
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Sumar/Summer 2024
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Haustönn/Fall 2024
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More infoManaging Research and Development - Methods and ModelsElectiveT-814-PRODECTS 8
More infoFixed Income and Interest Rate ModellingCoreT-815-FIXEECTS 8
More infoAdvanced Biomechanics IIElectiveT-828-BIOMECTS 8
More infoEnergy in Industrial ProcessesElectiveT-863-EIIPECTS 8
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Year
1. yearPrint
SemesterFall 2024
Level of course5. Second cycle, intermediate
Type of courseElective
PrerequisitesNo prerequisites.
ScheduleTaught for 12 weeks.
Lecturer
Mohamed F. M. Abdelfattah
Content
  • Introduction to electric power systems
  • Energy resources and power plants
  • Introduction to Smart-Grids
  • Smart-Grids control and automation
  • Information and communications technologies (ICT) applications for Smart-Grids
  • Renewable energy and emerging technologies
  • Stability analysis for Smart-Grids
  • Power electronics and high voltage direct current (HVDC) transmission in Smart-Grids
  • Case studies, experiences, test cases or a projects in Smart-Grids
Learning outcome - Objectives
After successful completion of this course, the students should be able to:
  • Know the basic components of the electric power systems and understand how electrical energy is generated, transmitted, distributes and consumed, and gain some idea about the energy resources and power plants.
  • Be familiar with the concept of fundamentals of Smart-Grids, and learn the fundamentals of the network protection and control, and understand the value of reliability and automation in distribution networks.
  • Understand the role of information and communications technologies (ICT) solutions on Smart-Grids, including selected topics such as wide area measurement systems (WAMS) and applications (PMU), Internet protocol (IP) and Internet-based applications, global positioning system (GPS) applications, multi-agent systems (MAS), geographic information system (GIS) applications, automatic meter reading (AMR), wireless and radio communication, power line carrier communication, optical fiber communication, Information and cyber security, and computational tools for Smart-Grids.
  • Gain some knowledge about Smart-Grids topics related to renewable energy and emerging technologies such as the role of Smart-Grids in integrating renewables, the impact of integrating fluctuating energy sources such as wind, energy storage systems, microgrids, electric vehicles in Smart-Grids, active distribution network, demand response and management, and smart cities, smart buildings, and smart homes.
  • Students might discuss other Smart-Grids topics such as stability analysis for Smart-Grids, power electronics and high voltage direct current (HVDC) transmission in Smart-Grids.
  • They could also study case studies, experiences, test cases or projects in Smart-Grids.
  • Students’ individual skills and group work experience are expected to be improved by using individual assignments, presentations and group discussions.
Course assessment

Reading material
No reading material found.
Teaching and learning activities

Language of instructionEnglish
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