Description

Theory
1.5

Laboratory
1

Instructors

Manuel Gonçalves

Contents

P1 - Operation of Electric Power Systems
1.1. Constitution and objectives of an Electrical Power System Network.
1.2 Load Characteristics
P2 - Power Systems Calculations
2.1. The 'Per Unit' (p.u.) system
2.2. The nodal admittance matrix
2.3. The nodal impedance matrix
P3 - Power Flow Calculation
3.1. Presentation of the problem
3.2. Power Flow formulation
P4 - Methods for Power Flow Calculation
4.1. Linearization of the power flow - DC Model
4.2. Gauss-Seidel Method
4.3. Newton-Raphson Method
4.4. Fast Decoupled Method

Learning Outcomes

O1- Consolidate all skills already acquired by producing a general and integrated view of the entire energy chain, as well as ways to supervise and control these systems in real time.
O2- Application of numerical calculation methodologies applied to electrical power systems analysis.
O3- Analysis and understanding of the main algorithms for calculating power flow in electrical energy networks.
O4- Implementation and code change for calculating power flow in electrical energy networks.