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Undergraduate-Level Courses
Undergraduate-Level Courses
Fundamentals Of Power System Economics [ECL3012]
Fundamentals Of Power System Economics [ECL3012]
Offered : 2025 September.
Synopsis
1. Fundamentals Of Power System Economics, (Ch.1,2) introduces the fundamentals of power system economics, covering industry restructuring, market participants, and basic economic principles.
2. Fundamentals Of Power System Economics, (Ch.3–8) cover electricity markets, network pricing, reliability and ancillary services, and investment decisions. Topics include forward and spot markets, bidding strategies, locational marginal pricing (LMP), congestion management, reserve co-optimization, capacity mechanisms, and transmission investment.
Learning objectives
1. Power Market Structures
2. Microeconomic Foundations
3. Forward and Spot Market Operations
4. Market Power and Bidding Strategies
5. Locational Marginal Pricing and Transmission Rights
6. Reliability and Ancillary Services.
7. Generation and Transmission Investment Decisions
Circuit Theory2 [ELE2002]
Circuit Theory2 [ELE2002]
Offered : 2025 Mar.
Synopsis
1. Circuit Theory 1, consisting of Ch.1 to 8, is devoted to DC circuits. It covered the fundamental laws and theorems, circuits techniques, and passive and active elements.
2. Circuit Theory 2, which contains Ch.9 to 19, deals with AC circuits. It introduces phasors, sinusoidal steady-state analysis+C40, AC power, RMS(Root-Mean-Square) values, three-phase systems, frequency response and advanced techniques for network analysis including Laplace transform, Fourier transform and 2-port network analysis.
Learning objectives
1. Sinusoids and Phasors
2. Sinusoidal Steady-State Analysis
3. AC Power Analysis
4. 3-Phase Circuits
5. Magnetically Coupled Circuits
6. Frequency Response
Graduate-Level Courses
Graduate-Level Courses
Advanced Distrubution system engineering [ELE9120]
Advanced Distrubution system engineering [ELE9120]
Offered : 2025 September.
Synopsis
Students will learn the fundamental principles of AC distribution systems, including their structural characteristics and operating mechanisms, and extend this knowledge to the analysis of AC/DC hybrid systems. The course emphasizes the impact of distributed generation, energy storage systems, and electric vehicles on distribution networks, focusing on power quality management and operational optimization for system stability. Furthermore, students will study advanced monitoring and control methods using PMU and WMU technologies, enabling real-time state estimation and system integration in next-generation distribution grids with high renewable penetration.
Learning objectives
1. AC Distribution Systems
2. Distributed Resources (DG, ESS, EV)
3. AC/DC Hybrid Grids
4. Power Quality & Optimization
5. PMU/WMU Monitoring and Controls
Multi Energy Grid Reliability Application [ELE6066]
Multi Energy Grid Reliability Application [ELE6066]
Offered : 2025 Mar.
Synopsis
Students will learn fundamental theories of probability and reliability analysis, including capacity, frequency, and duration, and apply these to analyze the reliability of transmission and distribution systems. Furthermore, the course expands to include reliability analysis of AC/DC hybrid power systems and integrated energy grids, reflecting changes in the power grid with the integration of renewable energy.
Learning objectives
1. Reliability and Probability Basics
2. AC Power System Reliability
3. AC/DC Hybrid System Reliability
4. Integrated Energy System Reliability (Electricity/Gas/Heat)
5. Application of Reliability Analysis Techniques
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