KD7070: Computer Aided Power System Design and Analysis IV - Engineering Assignment Help

Assignment Task:

Task:

Aims of Assignment

•  To gain a thorough understanding of Load Flow analysis, balanced and unbalanced fault level analysis, power and voltage control in addition to the impacts of reactive power compensation, distributed generation and smart grid solutions.
•  To enhance the student learning process, by relating the theory and analytical procedures to computer aided techniques for system analysis and problems solving.

2 Learning Outcomes
The student will be able to:

•  Design simple power networks incorporating typical high voltage and low voltage components (e.g. overhead lines, transformers, cables, distributed generators, etc.) and analyse their performance.
•  Describe the principles of smart grid solutions (e.g. the use of reactive power compensators and active network control) and analyse simple power networks incorporating these solutions.
•  Become competent in using commercially available software packages for system design and analysis of modern power engineering and appreciate the difference with theory.
•  Become competent in power systems analysis incorporating a variety of components.

Load Flow Analysis
Carry out the load flow analysis for two loading conditions at the far end of the 13.2 kV feeder: 6.0 MW, representing peak demand and 0.5 MW to represent off peak demand.
 

4.3 Choose Load Flow and perform the load flow analysis. During running of the program, warnings may be displayed, as some values of the network components are not entered. Accept all the default values suggested.
 

4.4 Calculate or draw figures for the following variables:
(i) Busbar:
Voltage (p.u.), Voltage (kV), Voltage angle ( o ) and Three Phase Fault level (MVA).
(ii) Line
Real power (MW) and Reactive power (MVAr).
(iii) For Cable, Transformer and Shunt, select the same as in (ii).
 

4.5 Comment on the results obtained with regard to the flow of active and reactive power, voltage profiles and fault levels at different parts of the system for the two loading conditions.

Unbalanced fault calculations
Use 6 MW load at the far end of the 13.2 kV feeder.
 

4.6 Carry out unbalanced fault calculations, as outlined below:
(i) Select a solid single phase to earth fault on Bus 17 and Bus 13 and run the program. Monitor and print the fault current and the voltages (magnitude and angle) of the three phases.

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