ECS5351

Power systems computations

W Mielczarski

6 points · 39 hours of lectures and practical work · Irregular availability · Clayton

Objectives The student is expected to acquire a basic knowledge and understanding of optimisation in electrical systems and nonlinear programming, in particular dynamic programming. The student is also expected to undertake a given case study to acquire skills in implementation of theoretical knowledge to solve practical problems.

Synopsis Optimisation; formulation of objective functions; constraints; penalty functions; nonlinear programming; dynamic programming - optimal allocation processes; probabilistic optimisation; Monte Carlo simulation; optimising electrical systems.

Assessment Examination (1 hour): 30% · Case study: 70%

Prescribed texts

Arrilaga J and Arnold C P Computer analysis of power systems Wiley, 1990
Greenwood A Electrical transients in power systems 2nd edn, Wiley, 1991
Wood A J and Wollenberg B F Power generation, operation and control Wiley, 1984

Back to the 1999 Engineering Handbook