EE251 - Downloads

EE 554 Schedule
Power System Dynamics (Spring 2003)

M, W, F 8-9, Howe Hall Room 1344

Dr. Jim McCalley

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The schedule below is our tentative course plan, but we may deviate from this plan as we proceed.

Class #, Date	Class topic	Homework or reading assignment
1, 1/13	Course overview
2, 1/15	Voltage stability	Read voltage stability slides click here.
3. 1/17	Voltage stability	Read paper by Sauer & Pai on load flow Jacobian singularity click here
4. 1/20	Voltage stability	Read paper by Ajjarapu click here Read paper by Greene on Loadability sensitivities click here Read paper by Greene on Contingency ranking click here
5. 1/22	Introduction to power system dynamics	Download and review EE554Intro.ppt. Read paper by Vittal click here and Chapter 1 of A&F. Read overview paper by De Mello click here and process dynamics paper by De Mello click here Read DSA practices paper by Fouad click here
6. 1/24	NERC planning criteria	Download and print out your own copy of the NERC planning standards, located at http://www.nerc.com/~filez/pss-psg.html (See sections C, D, E of this web page)
7. 1/27	The classical model	Sections 2.1-2.2 Read Intro paper by Byerly and Kimbark click here
8. 1/29	The classical model	Sections 2.3-2.5.1
9. 1/31	The classical model	Sections 2.5.2-2.6
10. 2/3	The classical model	Sections 2.7
11. 2/5	The classical model	Sections 2.8
12. 2/7	The classical model	Sections 2.9
13. 2/10	The classical model	Sections 2.10-2.11
14. 2/12	The synchronous machine	Sections 4.1-4.2 Review paper by Park. Click here. Class notes on machine equations.
15. 2/14	The synchronous machine	Section 4.3.
16. 2/17	The synchronous machine	Section 4.4.
17. 2/19	The synchronous machine	Section 4.5-4.6
18. 2/21	The synchronous machine	Section 4.7. Class notes on perunitization.
19. 2/24	The synchronous machine	Section 4.8
20. 2/26	The synchronous machine	Section 4.9-4.10. Class notes on torque equation.
21. 2/28	The synchronous machine	Section 4.11. Class notes on equivalent circuits.
22. 3/3	The synchronous machine	Section 4.12. Class notes on flux linkage model.
23. 3/5	The synchronous machine	Section 4.12. Class notes on saturation.
24. 3/7	The synchronous machine	Section 4.13
25. 3/10	EXAM
26. 3/12	The synchronous machine	Section 4.14. Class notes on understanding inductances.
27. 3/14	The synchronous machine	Section 4.15. Class notes on time constants.
3/17-3/21	SPRING BREAK	SPRING BREAK
28. 3/24	The synchronous machine	Section 4.15.
29. 3/26	Simulation of multi-machine systems	Sections 5.1-5.3. Read papers by Stott (click here) and by Dommel and Sato (click here).
30. 3/28	Simulation of multi-machine systems	Section 5.4-5.5
31. 3/31	Simulation of multi-machine systems	Section 5.7-5.8
32. 4/2	Simulation of multi-machine systems	Section 5.10
33. 4/4	Simulation of multi-machine systems	Sections 9.1-9.3
34. 4/7	Simulation of multi-machine systems	Section 9.4-9.5
35. 4/9	Response to small disturbances	Sections 3.1-3.3 (but not 3.3.1-3.3.2).
36. 4/11	Response to small disturbances	Sections 3.6. Class notes on generator response to load variation (click here).
37. 4/14	Response to small disturbances	Section 3.6
38. 4/16	Response to small disturbances	Section 3.4. Class notes on linearized analysis of multi-machine systems (click here).
39. 4/18	Response to small disturbances	Section 3.4. Class notes on linear system theory (click here).
40. 4/22	Response to small disturbances	Section 3.4. Read notes on participating generator identification (click here). Read papers by Klein (click here), Kundur (click here), and Wang (click here).
41. 4/24	Response to small disturbances	Section 3.4 (Participation factors). Class notes on participation factors (click here).
42. 4/26	Response to small disturbances	Section 3.3.1-3.3.2, 3.5.1, and Section 6.5. Read paper by Concordia and deMello (click here).
43. 4/29	TBA	Section 6.5
44. 4/31	TBA	Sections 6.1-6.4
45. 5/2	TBA	Sections 6.1-6.4
5/5-5/9	FINAL EXAMS	FINAL EXAMS