ISSN 2394-5125
 

Research Article 


SHORT-TERM OPTIMAL GENERATION SCHEDULING OF HYDRO-THERMAL-WIND INTEGRATED POWER SYSTEM

T.Anbazhagi, K. Asokan, R. Ashok kumar.

Abstract
In this paper, an intelligent computational technique of an Improved Ant Line Optimizer (IALO) is proposed to solve generation scheduling problem considering the renewable energy sources. The thermal units are integrated with hydro and wind units to output the optimal power. The main objective of problem is to minimize the total operating cost of thermal and wind units with satisfying the standard system, thermal, hydro and wind plants constraints. The projected ALO algorithm is based on the best and worst solutions obtained during the optimization process and the random interactions between the candidate solutions. It require only the common control parameters like population size and number of iterations and do not require any algorithm-specific control parameters. In the proposed algorithm, the search space is explored by the ant lion optimization first, and then the domain is searched by the particle swarm optimization (PSO) in each iteration cycle. Numerical examples with four hydro, three thermal and two wind units are considered for determining the cost at the time period of 24 hours also evaluate the performance of proposed IALO. The simulation results are obtained from the proposed method in terms of water discharge ware storage volume, hydro power, thermal power, wind power; reserve power, and total operating cost are tabulated. Finally, the simulation results are compared with other available method and prove the performance of this proposed algorithm.

Key words: Optimal Generation Scheduling, Valve point loading effect, Hydro, thermal and wind generation, Fuel cost minimization, Improved Ant line optimizer


 
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How to Cite this Article
Pubmed Style

T.Anbazhagi, K. Asokan, R. Ashok kumar. SHORT-TERM OPTIMAL GENERATION SCHEDULING OF HYDRO-THERMAL-WIND INTEGRATED POWER SYSTEM. JCR. 2020; 7(19): 2965-2976. doi:10.31838/jcr.07.19.361


Web Style

T.Anbazhagi, K. Asokan, R. Ashok kumar. SHORT-TERM OPTIMAL GENERATION SCHEDULING OF HYDRO-THERMAL-WIND INTEGRATED POWER SYSTEM. http://www.jcreview.com/?mno=122793 [Access: September 14, 2020]. doi:10.31838/jcr.07.19.361


AMA (American Medical Association) Style

T.Anbazhagi, K. Asokan, R. Ashok kumar. SHORT-TERM OPTIMAL GENERATION SCHEDULING OF HYDRO-THERMAL-WIND INTEGRATED POWER SYSTEM. JCR. 2020; 7(19): 2965-2976. doi:10.31838/jcr.07.19.361



Vancouver/ICMJE Style

T.Anbazhagi, K. Asokan, R. Ashok kumar. SHORT-TERM OPTIMAL GENERATION SCHEDULING OF HYDRO-THERMAL-WIND INTEGRATED POWER SYSTEM. JCR. (2020), [cited September 14, 2020]; 7(19): 2965-2976. doi:10.31838/jcr.07.19.361



Harvard Style

T.Anbazhagi, K. Asokan, R. Ashok kumar (2020) SHORT-TERM OPTIMAL GENERATION SCHEDULING OF HYDRO-THERMAL-WIND INTEGRATED POWER SYSTEM. JCR, 7 (19), 2965-2976. doi:10.31838/jcr.07.19.361



Turabian Style

T.Anbazhagi, K. Asokan, R. Ashok kumar. 2020. SHORT-TERM OPTIMAL GENERATION SCHEDULING OF HYDRO-THERMAL-WIND INTEGRATED POWER SYSTEM. Journal of Critical Reviews, 7 (19), 2965-2976. doi:10.31838/jcr.07.19.361



Chicago Style

T.Anbazhagi, K. Asokan, R. Ashok kumar. "SHORT-TERM OPTIMAL GENERATION SCHEDULING OF HYDRO-THERMAL-WIND INTEGRATED POWER SYSTEM." Journal of Critical Reviews 7 (2020), 2965-2976. doi:10.31838/jcr.07.19.361



MLA (The Modern Language Association) Style

T.Anbazhagi, K. Asokan, R. Ashok kumar. "SHORT-TERM OPTIMAL GENERATION SCHEDULING OF HYDRO-THERMAL-WIND INTEGRATED POWER SYSTEM." Journal of Critical Reviews 7.19 (2020), 2965-2976. Print. doi:10.31838/jcr.07.19.361



APA (American Psychological Association) Style

T.Anbazhagi, K. Asokan, R. Ashok kumar (2020) SHORT-TERM OPTIMAL GENERATION SCHEDULING OF HYDRO-THERMAL-WIND INTEGRATED POWER SYSTEM. Journal of Critical Reviews, 7 (19), 2965-2976. doi:10.31838/jcr.07.19.361