Combined heat and power economic dispatch problem using the invasive weed optimization algorithm

doi:10.1007/s11708-013-0276-4

PDF(138 KB)

Frontiers in Energy ›› 2014, Vol. 8 ›› Issue (1) : 25-30. DOI: 10.1007/s11708-013-0276-4

RESEARCH ARTICLE

Combined heat and power economic dispatch problem using the invasive weed optimization algorithm

作者信息 +

Combined heat and power economic dispatch problem using the invasive weed optimization algorithm

Author information +

History +

Abstract

Cogeneration units which produce both heat and electric power are found in many process industries. These industries also consume heat directly in addition to electricity. The cogeneration units operate only within a feasible zone. Each point within the feasible zone consists of a specific value of heat and electric power. These units are used along with other units which produce either heat or power exclusively. Hence the economic dispatch problem for these plants optimizing the fuel cost is quite complex and several classical and meta-heuristic algorithms have been proposed earlier. This paper applies the invasive weed optimization algorithm which is inspired by the ecological process of weed colonization and distribution. The results obtained have been compared with those obtained by other methods earlier and showed a marked improvement over earlier ones.

Keywords

combined heat and power (CHP) / economic dispatch / meta-heuristic algorithm / invasive weed optimization / cogeneration

引用本文

EndNote

Ris (Procite)

Bibtex

导出引用

. . Frontiers in Energy. 2014, 8(1): 25-30 https://doi.org/10.1007/s11708-013-0276-4

参考文献

原文顺序 | 文献年度倒序 | 文中引用次数倒序

[1]	Rooijers F J, van Amerongen R A M. Static economic dispatch for co-generation systems. IEEE Transactions on Power Systems, 1994, 9(3): 1392–1398 CrossRef ADS Google scholar
[2]	Guo T, Henwood M I, van Ooijen M. An algorithm for combined heat and power economic dispatch. IEEE Transactions on Power Systems, 1996, 11(4): 1778–1784 CrossRef ADS Google scholar
[3]	Vasebi A, Fesanghary M, Bathaee S M T. Combined heat and power economic dispatch by harmony search algorithm. International Journal of Electrical Power & Energy Systems, 2007, 29(10): 713–719 CrossRef ADS Google scholar
[4]	Khorram E, Jaberipour M. Harmony search algorithm for solving combined heat and power economic dispatch problems. Energy Conversion and Management, 2011, 52(2): 1550–1554 CrossRef ADS Google scholar
[5]	Wong K P, Algie C. Evolutionary programming approach for combined heat and power dispatch. Electric Power Systems Research, 2002, 61(3): 227–232 CrossRef ADS Google scholar
[6]	Wang L F, Singh C. Stochastic combined heat and power dispatch based on multi-objective particle swarm optimization. International Journal of Electrical Power & Energy Systems, 2008, 30(3): 226–234 CrossRef ADS Google scholar
[7]	Subbaraj P, Rengaraj R, Salivahanan S. Enhancement of combined heat and power economic dispatch using self adaptive real-coded genetic algorithm. Applied Energy, 2009, 86(6): 915–921 CrossRef ADS Google scholar
[8]	Sinha N, Bhattacharya T. Genetic Algorithms for non-convex combined heat and power dispatch problems. In: Proceedings of TENCON 2008–2008 IEEE Region 10 Conference, Hyderabad, India, 2008, 1–5
[9]	Sinha N, Saikia L C, Malakar T. Optimal solution for non-convex combined heat and power dispatch problems using differential evolution. In: Proceedings of 2010 IEEE International Conference on Computational Intelligence and Computing Research (ICCIC), Coimbatore, India, 2010, 1–5
[10]	Sudhakaran M. Slochanal S M R. Integrating genetic algorithms and tabu search for combined heat and power economic dispatch. In: Proceedings of TENCON 2003-Conference on Convergent Technologies for Asia-Pacific Region, Bangalore, India, 2003, 67–71
[11]	Song Y H, Chou C S, Stonham T J. Combined heat and power economic dispatch by improved ant colony search algorithm. Electric Power Systems Research, 1999, 52(2): 115–121 CrossRef ADS Google scholar
[12]	Basu M. Bee colony optimization for combined heat and power economic dispatch. Expert Systems with Applications, 2011, 38(11): 13527–13531
[13]	Rong A, Lahdelma R. Efficient algorithms for combined heat and power production planning under the deregulated electricity market. European Journal of Operational Research, 2007, 176(2): 1219–1245 CrossRef ADS Google scholar
[14]	Hosseini S S S, Jafarnejad A, Behrooz A H, Gandomi A H. Combined heat and power economic dispatch by mesh adaptive direct search algorithm. Expert Systems with Applications, 2011, 38(6): 6556–6564 CrossRef ADS Google scholar
[15]	Su C T, Chiang C L. An incorporated algorithm for combined heat and power economic dispatch. Electric Power Systems Research, 2004, 69(2,3): 187–195
[16]	Mehrabian A R, Lucas C. A novel numerical optimization algorithm inspired from weed colonization. Ecological Informatics, 2006, 1(4): 355–366 CrossRef ADS Google scholar
[17]	Ghosh A, Das S, Chowdhury A, Giri R. An ecologically inspired direct search method for solving optimal control problems with Bézier parameterization. Engineering Applications of Artificial Intelligence, 2011, 24(7): 1195–1203 CrossRef ADS Google scholar
[18]	Mehrabian A R, Yousefi-Koma A. A novel technique for optimal placement of piezoelectric actuators on smart structures. Journal of the Franklin Institute, 2011, 348(1): 12–23 CrossRef ADS Google scholar
[19]	Basak A, Pal S, Das S, Abraham A, Snasel V. A modified invasive weed optimization algorithm for time-modulated linear antenna array synthesis. In: Proceedings of IEEE Congress on Evolutionary Computation (CEC). Barcelona, Spain, 2010, 1–8
[20]	Kundu D, Suresh K, Ghosh S, Das S, Panigrahi B K, Das S. Multi-objective optimization with artificial weed colonies. Information Sciences, 2011, 181(12): 2441–2454 CrossRef ADS Google scholar
[21]	Sedighy S H, Mallahzadeh A R, Soleimani M, Rashed-Mohassel J. Optimization of printed Yagi antenna using invasive weed optimization (IWO). IEEE Antennas and Wireless Propagation Letters, 2010, 9: 1275–1278 CrossRef ADS Google scholar
[22]	Hajimirsadeghi H, Lucas C. A hybrid IWO/PSO algorithm for fast and global optimization. In: Proceedings of IEEE EUROCON 2009, St. Petersburg, Russia, 2009, 1964–1971
[23]	Giri R, Chowdhury A, Ghosh A, Das S, Abraham A, Snasel V. A modified invasive weed optimization algorithm for training of feed-forward neural networks. In: Proceedings of 2010 IEEE International Conference on Systems Man and Cybernetics (SMC). Istanbul, Turkey, 2010, 3166–3173

Acknowledgements

The authors are extremely grateful to the Chancellor, Vice-Chancellor and Vice-Presidents of VIT University, Vellore, for providing the excellent infrastructure facilities and encouragement which have made this research work possible.