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Neural Computing and Applications

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01.07.2013 | Original Article

Hybrid neuro-swarm optimization approach for design of distributed generation power systems

Erschienen in: Neural Computing and Applications | Ausgabe 1/2013

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Abstract

The global energy sector faces major challenges in providing sufficient energy to the worlds ever-increasing energy demand. Options to produce greener, cost effective, and reliable source of alternative energy need to be explored and exploited. One of the major advances in the development of this sort of power source was done by integrating (or hybridizing) multiple different alternative energy sources (e.g., wind turbine generators, photovoltaic cell panels, and fuel-fired generators, equipped with storage batteries) to form a distributed generation (DG) power system. However, even with DG power systems, cost effectiveness, reliability, and pollutant emissions are still major issues that need to be resolved. The model development and optimization of the DG power system were carried out successfully in the previous work using particle swarm optimization (PSO). The goal was to minimize cost, maximize reliability, and minimize emissions (multi-objective function) subject to the requirements of the power balance and design constraints. In this work, the optimization was performed further using Hopfield neural networks (HNN), PSO, and HNN-PSO techniques. Comparative studies and analysis were then carried out on the optimized results.

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EI-Sayes MA, Osman MG, Kaddah SS (1993) Assessment of the economic penetration levels of photovoltaic panels, wind turbine generators and storage batteries. Electric Power Syst Res 27:233–246CrossRef

Kandil MS, Farghal SA, EL-Alfy AE (1991) Optimum operation of an autonomous energy system suitable for new communities in developing countries. Electric Power Syst Res 21:137–146CrossRef

Kellogg W, Nehrir MH, Venkataramanan G, Gerez V (1996) Optimal unit sizing for a hybrid wind/photovoltaic generating system. Electric Power Syst Res 39:35–38CrossRef

Kellogg W, Nehrir MH, Venkataramanan G, Gerez V (1998) Generation unit sizing and cost analysis for stand-alone wind, photovoltaic, and hybrid wind/PV systems. IEEE Trans Energy Convers 13(1):70–75CrossRef

Lund H (2005) Large-scale integration of wind power into different energy systems. Energy 30:2402–2412CrossRef

Notton G, Cristofari C, Poggi P, Muselli M (2001) Wind hybrid electrical supply system: behaviour simulation and sizing optimization. Wind Energy 4:43–59CrossRef

Wang L, Singh C (2007) PSO-based multi-criteria optimum design of a grid-connected hybrid power system with multiple renewable sources of energy. In: Proceedings of the IEEE Swarm intelligence symposium, pp. 250–157

Chedid R, Akiki H, Rahman S (1998) A decision support technique for the design of hybrid solar-wind power systems. IEEE Trans Energy Convers 13(1):76–83

Chedid R, Rahman S (1997) Unit sizing and control of hybrid wind-solar power systems. IEEE Trans Energy Convers 12(1):79–85

10.

Hopfield JJ (1982) Neural networks and physical systems with emergent collective computational abilities. Proc Natl Acad Sci USA 29:2554–2558

11.

Hopfield JJ (1984) Neurons with graded response have collective computational properties like those of two-state neurons. Proc Natl Acad Sci USA 81:3088–3092

12.

Lee KY, Sode-Yome A, Park JH (1998) Adaptive hopfield neural networks for economic load dispatch. IEEE Trans Power Syst USA 13(2):519–526CrossRef

13.

Tank DW, Hopfield JJ (1986) Simple ‘Neural’ optimization network: an A\D converter, signal decision circuit and a linear programming circuit. IEEE transactions on circuits and systems, CAS-33, pp 533–541

14.

Kennedy J, Eberhart R (1995) Particle swarm optimization. In: IEEE proceedings of the international conference on neural networks, Perth, Australia, pp 1942–1948

15.

Phuangpornpitak N, Prommee W, Tia S, Phuangpornpitak W (2010) A study of particle swarm technique for renewable energy power systems. PEA-AIT international conference on energy and sustainable development: issues and strategies, Thailand, pp 1–7

16.

Shi Y, Eberhart R (1998) A modified particle swarm optimizer. In: Proceedings of the IEEE international conference on evolutionary computation, pp 69–73

17.

Frans van den Bergh (2001) An analysis of particle swarm optimizers. PhD thesis, University of Pretoria

18.

Zitzler E, Laumanns M, Bleuler S (2002) A tutorial on evolutionary multiobjective optimization

19.

Barton JP, Infield DG (2004) Energy storage and its use with intermittent renewable energy. IEEE Trans Energy Convers 19(2):441–448CrossRef

20.

Talaq JH, El-Hawary F, El-Hawary ME (1994) A summary of environmental/economic dispatch Algorithms. IEEE Trans Power Syst 9:1508–1516CrossRef

21.

Bayon L, Grau JM, Ruiz MM, Suarez PM (2006) Optimization of SO2 and NOx emissions in thermal plants. J Math Chem 40(1):29–41

22.

Moreno J, Esquivel A (2000) Neural network based approach for the computation of harmonic power in real time microprocessor-based vector for an induction motor drive. In: IEEE transactions on industry application, pp 277–282

23.

Vazquez JR, Salmeron PR (2000) Three phase active power filter control using neural networks. In: 10th Mediterranean electrotechnical conference, vol 3, pp 924–927

24.

Bahbah AG, Girgis AA (2004) New method for generator’s angles and angular velocities prediction for transient stability assessment of multi machine power systems using recurrent neural network. IEEE Trans Power Syst 19:1015–1022CrossRef

25.

Singh G, Srivastava SC, Kalra PK, Vinod Kumar DM (1995) Fast approach to artificial neural network training and its application to economic load dispatch. Electric Mach Power Syst 23:13–24CrossRef

26.

Kumar J, Sheble GB (1995) Clamped state solution of artificial neural network for real-time economic dispatch. IEEE Trans Power Syst 10(2):925–931

27.

King TD, El-Hawary ME, El-Hawary F (1995) Optimal environmental dispatching of electric power systems via an improved hopfield neural network model. IEEE Trans Power Syst 10(3):1559–1565CrossRef

28.

Abe S, Kawakami J, Hirasawa K (1992) Solving inequality constrained combinatorial optimization problems by the hopfield neural networks. Neural Netw 5:663–670CrossRef

Titel: Hybrid neuro-swarm optimization approach for design of distributed generation power systems
Publikationsdatum: 01.07.2013
Erschienen in: Neural Computing and Applications / Ausgabe 1/2013
Print ISSN: 0941-0643
Elektronische ISSN: 1433-3058
DOI: https://doi.org/10.1007/s00521-012-0976-4

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