Research Proposal Essay Example

3Power System Stability Proposal

Power system stability proposal


There has been a continuous rise demand for power in both developed and developing nations in the world. Continues rise in demand has necessitated engineers to ensure that power systems are controlled to ensure the limit of operation is contained. The need for a power system that is stable, quality, and reliable has been on rise due to the fact that industries that are sensitive have been developed. Industries like communication, electronic and information technology are said to be power sensitive. There have been challenges of getting stable power systems that are always in equilibrium.

Research question:

How the assessments of power systems will assist in ensuring power system stability is attained and how to ensure that power systems do not become unstable.

Literature review

Damien 2002 observes that the process of power system stability requires different concepts and approaches. He goes ahead to suggest that for power system stability to be attained, then it must be that after its operation there is a way that will enable it to return into the equilibrium status. The equilibrium status is attained through the application of different concepts and approaches that all combine to bring the power system stability back to normal. There are different controllers that are put in place in a power system to ensure stability. During the course of transmission the controllers will regulate the quantity of power required to ensure equilibrium throughout the system (Anil & Ratna, 2001, pg. 1). The study will further look into the impact of power system assessment will play in ensuring power system stability is attained. Most of the scholars have concentrated looking at the methods of ensuring power stability is attained ignoring the importance of assessment of power systems.


The major objective of the study is to identify ways in which power system assessment will promote power system stability/control. Below is the list of the objectives of the study;

  • Identify the benefits of the power system assessments towards attaining stability in the power system.

  • Look into various ways to improve power stability and how to attain perfection.

  • Examine the methods of ensuring that power remains on its equilibrium and it does not become unstable.

  • Determine the importance of stable power systems in an economy in general.


To ensure that all the objectives are well studied, then a survey and observation approaches will be used in carrying out the research. The two approaches may basically take quantitative and qualitative consideration depending on the situation in context. Data analysis will be undertaken to ensure that the results give the true picture of what is under consideration. From the previous literature reviews, some supportive information is going to be considered to ensure that new concepts are brought on board. Research design is going to take an approach that is compatible to the nature of the study. Data collection methods chosen will be such a way that they easily capture all the information needed.

Significance of the study

Assessment of power systems will contribute a great deal towards attaining a stable power system. Attaining a power system that is in its equilibrium all through the transmission requires a thorough assessment to ensure everything is in place. This aspect makes the study to be an important undertaking in the objective towards attaining power stability.


Anil, K.D. and Ratna Dahiya, (2001). Energy function approach for transient stability analysis of power system using advanced controlled STATCOM-SMES.

Arabi, S., Hamadanizadeh, H., and Fardanesh, B., (2002). Convertible static compensator performancestudies on the NY state transmission system, IEEE Transactions on Power Systems, 17(3), 701–706.

Damien Ernst, (2002). Power Systems Stability Control: Reinforcement Learning Framework.

Chang, H.-C. and Wang, M.-H. (1997). Neural network-based self-organizing fuzzy controller for transient stability of multimachine power systems, IEEE Transactions on Energy Conversion, 10(2), 339–347.

CIGRE´ TF 38.02.17, Advanced Angle Stability Controls, CIGRE´ Brochure No. 155, April 2000.

IEEE TF report, (1982). “Proposed terms and definitions for power system stability,” IEEE Trans. on Power Appart. and Syst.,, Vol. PAS-101, pp.1894-1897.

IEEE/CIGRE Joint Task Force on Stability Terms and Definitions (2004), “Definition and Classification of Power System Stability”, IEEE Trans. on Power Syst., Vol. 19, No. 2, pp. 1387-1400.

Lee, D.C. and Kundur, P., (1986). Advanced excitation controls for power system stability enhancement, CIGRE´, paper 38–01.

Kamwa, I., Grondin, R., and Hebert, Y., (2001). Wide-area measurement based stabilizing control of large power systems—A decentralized=hierarchical approach, IEEE Transactions on Power Systems, 16(1), 136–153.

Stigers, C.A., Woods, C.S., Smith, J.R., and Setterstrom, R.D., (1997). The acceleration trend relay for generator stabilization at Colstrip, IEEE Transactions on Power Delivery, 12(3), 1074–1081.

Studt, T., (1998). Computer scientists search for ties to biological intelligence, R&D Magazine, 77–78.

Taylor, C.W., Erickson, D.C., Martin, K.E., Wilson, R.E., and Venkatasubramanian, V., (2005) WACS— Wide-area stability and voltage control system: R&D and on-line demonstration, Proceedings of the IEEE Special Issue on Energy Infrastructure Defense Systems, 93(5), 892–906.