Refine your search
Collections
Co-Authors
Year
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z All
Biswas, J.
- PI-Based Load Frequency Controller Design for Multi Machine System Using Genetic Algorithm
Abstract Views :402 |
PDF Views:112
Authors
Affiliations
1 Department of Electrical Engineering, Kalyani Government Engineering College, Kalyani-741235, IN
1 Department of Electrical Engineering, Kalyani Government Engineering College, Kalyani-741235, IN
Source
Reason-A Technical Journal (Formerly Reason-A Technical Magazine), Vol 14 (2015), Pagination: 65-74Abstract
The paper presents a systematic method of obtaining a detailed model of control area for automatic generation control (AGC) taking into account the effect of power transmission network. The analysis is carried out considering a 6-bus system and genetic algorithm (GA) is used to optimize the gains of Proportional Integral (P-I) controller for improving the dynamic response of the system. The results show that the dynamic response for frequency deviation improves significantly considering P-I controller optimized using GA.Keywords
Load Frequency Control (LFC), Proportional-Integral (P-I) Controller, Genetic Algorithm (GA).References
- Elgerd, O., Electric Energy Systems Theory: An Introduction, McGraw-Hill, New York, 1971.
- Jaleeli, N., VanSlyck, L., Ewart, D., Fink, L., Hoffman, A., Understanding automatic generation control, IEEE Transaction on Power System, Vol. 7, No. 3, pp. 1106–1112, 1992.
- Fosha, C., Elgerd, O., The megawatt-frequency control problem: A new approach via optimal control theory, IEEE Transaction on Power System, Vol. 89, pp. 563–577, 1970.
- Tripathy, S.C., Hope, G.S., Malik O.P., Optimisation of load–frequency control parameters for power systems with reheat steam turbines and governor deadband nonlinearity, IEE Proceedings on Generation Transmission Distribution, Vol. 129, pp.10–16, 1982.
- Hiyama, T., Design of decentralised load–frequency regulators for interconnected power systems, IEE Proceedings on Generation Transmission Distribution, Vol. 129, pp. 17–23, 1982.
- Lim, K.Y., Wang, Y., Zhou, R., Robust decentralised load–frequency control of multi-area power systems, IEE Proceedings on Generation Transmission Distribution, Vol. 143, 1996.
- Yang, T.C., Cimen, H., Zhu, Q.M., Decentralised load–frequency controller design based on structured singular values, IEE Proceedings on Generation Transmission Distribution, Vol. 145, pp. 7–14, 1998.
- Bialek, J., Tracing the flow of electricity, IEE Proceedings on Generation Transmission Distribution, Vol. 143, pp. 313–320, 1996.
- Christie, R.D., Bose, A., Load frequency control issues in power system operation after deregulation, IEEE Transaction on Power System, Vol. 3, pp. 1191–1196, 1996.
- Zobian, A., Ilic, M.D, Unbundling of transmission and ancillary services-technical issues, IEEE Transaction on Power System, Vol. 12, pp. 539–548, 1997.
- Iracleous, D.P., Alexandridis, A.T., A multi-task automatic generation control for power regulation, Electric Power System Research, Vol. 73, pp. 275-285, 2005.
- Das,D., Electrical Power Systems, A Book, New Age International (P) limited, 2006.
- Schultz, W.C., Rideout, V.C., Control system performance measures: past, present and future, IRE Transactions on Automatic Control, AC- 6,22, pp. 22-35, 1961.
- Ogata, K., Modern Control Engineering, A book, Printice-Hall, Englewood cliffs, NJ, pp. 293-313, 1970.
- Holland, J. H., Adaptation in Nature and Artificial Systems, University of Michigan Pres, Am Arrbor,1975.
- Biswas S., Bera P., GA Application to Optimization of AGC in Two–Area Power System Using Battery Energy Storage, International Conference on Communications, Devices and Intelligent Systems (CODIS), Jadavpur University, 2012.