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Energy Systems

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17.12.2018 | Original Paper

Fractional-order model reference adaptive control of a multi-source renewable energy system with coupled DC/DC converters power compensation

verfasst von: Sihem Djebbri, Samir Ladaci, Abderezzak Metatla, Hanane Balaska

Erschienen in: Energy Systems | Ausgabe 2/2020

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Abstract

We propose a supervision strategy based on a fractional order model reference adaptive control (FO-MRAC) design for the control of electrical energy transfers in a multi-source renewable energy system. We consider a two sources system (photo-voltaic and lead-acid battery bank) with a specific zero voltage switch full-bridge isolated buck DC/DC power converter and the load which is supposed to be resistive. The global energy system involving coupled DC/DC converters on a DC bus is accurately modelized in the state space domain. Then, a fractional order MRAC control law is designed in order to stabilize the system’s current and voltage. We show by means of numerical simulation tests that the proposed FO-MRAC control is very efficient and robust even in presence of renewable sources fluctuations and load variations.

Vorheriger Artikel Performance analysis method for cogeneration system with multiple energy supplies

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Ghoudelbourk, S., Dib, D., Omeiri, A.: Decoupled control of active and reactive power of a wind turbine based on DFIG and matrix converter. Energy Syst. (2015). https://doi.org/10.1007/s12667-015-0177-1

Kasaei, M.J., Gandomkar, M., Nikoukar, J.: Optimal management of renewable energy sources by virtual power plant. Renew. Energy. (2017). https://doi.org/10.1016/j.renene.2017.08.010

Pereira, A.L.: Modular Supervisory Controller for Hybrid Power Systems. Risø National Laboratory, Roskilde (2000)

Roy, S.: Uncertainty of optimal generation cost due to integration of renewable energy sources. Energy Syst. (2015). https://doi.org/10.1007/s12667-015-0162-8

Castro R. de, Trovão, J.P., Pacheco, P., Melo, P., Pereirinha, P.G., Araújo, R.E.: DC Link Control for Multiple Energy Sources in Electric Vehicles. In: Proceedings of the 2011 IEEE Vehicle Power and Propulsion Conference (VPPC), 6–9 Sept., pp. 1–6. Chicago, IL, USA (2011)

Banshwar, A., Sharma, N.K., Sood, Y.R., Shrivastava, R.: Real time procurement of energy and operating reserve from Renewable Energy Sources in deregulated environment considering imbalance penalties. Renew. Energy 113, 855–866 (2017)CrossRef

Belabbas, B., Allaoui, T., Tadjine, M., Denai, M.: Power management and control strategies for off-grid hybrid power systems with renewable energies and storage. Energy Syst. (2017). https://doi.org/10.1007/s12667-017-0251-y

Roncero-Sanchez, P., Feliu-Batlle, V., García-Cerrada, A.: Design and comparison of state-feedback and predictive-integral current controllers for active- and reactive-power control in renewable energy systems. Control Eng. Pract. 17, 255–266 (2009)CrossRef

Valenciaga, F., Puleston, P.F.: Supervisor control for a stand-alone hybrid generation system using wind and photovoltaic energy. IEEE Trans. Energy Convers. 20(2), 398–405 (2005)CrossRef

10.

Pasamontes, M., Alvarez, J.D., Guzma, J.L., Lemos, J.M., Berenguel, M.: A switching control strategy applied to a solar collector field. Control Eng. Pract. 19(2), 135–145 (2011)CrossRef

11.

Guérin, F., Lefebvre, D., Loisel, V.: Supervisory control design for systems of multiple sources of energy. Control Eng. Pract. 20(12), 1310–1324 (2012)CrossRef

12.

Olalla, C., Queinnec, I., Leyva, R., ElAroudi, A.: Robust optimal control of bilinear DC–DC converters. Control Eng. Pract. 19, 688–699 (2011)CrossRef

13.

Trovão, J.P., Pereirinha, P.G., Jorge, H.M., Antunes, C.H.: A multi-level energy management system for multi-source electric vehicles—an integrated rule-based meta-heuristic approach. Appl. Energy 105, 304–318 (2013)CrossRef

14.

Naderi, P., Fallahi, F.: A novel structure proposal for distributed generation using SMES and PV system with relative controllers design. Energy Syst. 6, 153–172 (2015)CrossRef

15.

Naamane, A., Msirdi, N.: Improving multiple source power management using state flow approach. In: Hakansson, A., Höjer, M., Howlett, R., Jain, L. (eds.) Sustainability in Energy and Buildings. Smart Innovation, Systems and Technologies, vol. 22, pp. 779–785. Springer, Berlin, Heidelberg (2013)CrossRef

16.

Vinagre, B.M., Petras, I., Podlubny, I., Chen, Y.Q.: Using fractional order adjustment rules and fractional order reference models in model-reference adaptive control. Nonlinear Dyn. 29(1–4), 269–279 (2002)MathSciNetCrossRef

17.

Ladaci, S., Charef, A.: Fractional order model reference adaptive control of a robot arm (in French), Revue Communication Sciences and Technologie, vol. 1, pp. 20–52. ENP Oran, Algeria (2002)

18.

Ladaci, S., Charef, A.: On fractional adaptive control. Nonlinear Dyn. 43(4), 365–378 (2006)MathSciNetCrossRef

19.

Ladaci, S., Charef, A.: Fractional order adaptive control systems: a survey. In: Mitchell, E.W., Murray, S.R. (eds.) Classification and Application of Fractals, pp. 261–275. Nova Science Publishers, USA (2012)

20.

Aguila-Camacho, N., Duarte-Mermoud, M.A.: Improving the control energy in model reference adaptive controllers using fractional adaptive laws. IEEE/CAA J. Autom. Sin. 3(3), 332–337 (2016)MathSciNetCrossRef

21.

Aguila-Camacho, N., Duarte-Mermoud, M.A.: Combined fractional adaptive control. In: IFAC-PapersOnLine, 20th IFAC World Congress, Vol. 50(1), pp. 8586–8591 (2017)

22.

Abedini, M., Nojoumian, M.A., Salarieh, H., Meghdari, A.: Model reference adaptive control in fractional order systems using discrete-time approximation methods. Commun. Nonlinear Sci. Numer. Simulat. 25, 27–40 (2015)MathSciNetCrossRef

23.

Chen, Y., Cheng, S., Wei, Y., Wang, Y.: Indirect model reference adaptive control for a class of linear fractional order systems. In: 2016 American Control Conference (ACC), Boston, MA, USA, pp. 2753–2758, July 6–8 (2016)

24.

Sawai, K., Takamatsu, T., Ohmori, H.: Adaptive Control Law using Fractional Calculus Systems. In: SICE Annual Conference 2012, Akita University, Akita, Japan, pp. 1502–1505, August 20–23 (2012)

25.

Takamatsu, T., Ohmori, H.: Design of adaptive systems by using fractional calculus system’s approach. In Proceedings of the 32nd Chinese Control Conference, Xi’an, China, pp. 3095–3099, July 26–28 (2013)

26.

Bensafia, Y., Ladaci, S.: Adaptive control with fractional order reference model (selected paper). Int. J. Sci. Tech. Autom. Control Comput. Eng. 5, 1614–1623 (2011)

27.

Wei, Y., Sun, Z., Hua, Y., Wang, Y.: On fractional order composite model reference adaptive control. Int. J. Syst. Sci. 47(11), 2521–2531 (2016)MathSciNetCrossRef

28.

YaLi, H., RuiKun, G.: Application of fractional-order model reference adaptive control on industry boiler burning system. In: 2010 Int. Conf. on Intelligent Computation Technology and Automation, Changsha, China, pp. 750–753, 11–12 May (2010)

29.

Aguila-Camacho, N., Duarte-Mermoud, M.A.: Fractional adaptive control for an automatic voltage regulator. ISA Trans. 52, 807–815 (2013)CrossRef

30.

Bensafia, Y., Ladaci, S., Khettab, K., Chemori, A.: Fractional order model reference adaptive control for SCARA robot trajectory tracking. Int. J. Ind. Syst. Eng. 30(2), 138–156 (2018)

31.

Suárez, J.I., Vinagre, B.M., Chen, Y-Q.: A fractional adaptation scheme for lateral control of an AGV. In: Proceedings of the 2nd IFAC Workshop on Fractional Differentiation and its Applications, Porto, Portugal, July 19–21, IFAC Proceedings Volumes, Vol. 39(11), pp. 149–154 (2006)

32.

Sethi, D., Kumar, J., Khanna, R.: Design of fractional order MRAPIDC for inverted pendulum system. Indian J. Sci. Technol. 10(31), 1–5 (2017)CrossRef

33.

Ma, J., Yao, Y., Liu, D.: Fractional order model reference adaptive control for a hydraulic driven flight motion simulator. In: 41st Southeastern Symposium on System Theory University of Tennessee Space Institute Tullahoma, TN, USA, pp. 340–343, March 15–17 (2009)

34.

Navarro-Guerrero, G., Tang, Y.: Fractional order model reference adaptive control for anesthesia. Int J Adapt Control Signal Process. (2017). https://doi.org/10.1002/acs.2769

35.

Kavuran, G., Alagoz, B.B., Ates, A., Yeroglu, C.: Implementation of model reference adaptive controller with fractional order adjustment rules for coaxial rotor control test system. Balkan J. Electr. Comput. Eng. 4(2), 84–88 (2016)

36.

Tabatabaei, M.: Design of a fractional order adaptive controller for velocity control of a permanent magnet synchronous motor. COMPEL Int. J. Comput. Math. Electr. Electron. Eng. 34(4), 1191–1212 (2015)CrossRef

37.

Wang, H., Zeng, G., Dai, Y., Bi, D., Sun, J., Xie, X.: Design of a fractional order frequency PID controller for an islanded microgrid: a multi-objective extremal optimization method. Energies 10(1502), 1–18 (2017)

38.

Nosrati, K., Mansouri, H.R., Saboori, H.: Fractional-order PID controller design of frequency deviation in a hybrid renewable energy generation and storage system. In: Proceedings of the 24th International Conference and Exhibition on Electricity Distribution (CIRED), pp. 1148–1152, 12–15 June (2017)

39.

Melício, R., Mendes, V.M.F., Catalão, J.P.S.: Fractional-order control and simulation of wind energy systems with PMSG/full-power converter topology. Energy Convers. Manag. 51, 1250–1258 (2010)CrossRef

40.

Ottoboni, K.A., Gonçalves, A.F.Q., Fuzato, G.H.F., Machado, R.Q.: Fractional order controller PI\(\lambda \) designed via heuristic optimization algorithm Lévy-Flight Firefly for connection of renewable energy sources to the grid. In: Proceedings of the 2015 IEEE 13th Brazilian Power Electronics Conference and 1st Southern Power Electronics Conference (COBEP/SPEC), Fortaleza, Brazil, 29 Nov.–2 Dec. (2015)

41.

Afghoul, H., Chikouche, D., Krim, F., Babes, B., Beddar, B.: Implementation of fractional-order integral-plus-proportional controller to enhance the power quality of an electrical grid. Electric Power Compon. Syst. 44(9), 1018–1028 (2016)CrossRef

42.

Pan, I., Das, S.: Fractional order fuzzy control of hybrid power system with renewable generation using chaotic PSO. ISA Trans. 62, 19–29 (2016)CrossRef

43.

Pan, I., Das, S.: Fractional order AGC for distributed energy resources using robust optimization. IEEE Trans. Smart Grid. 7(5), 2175–2186 (2016)CrossRef

44.

Neçaibia, A., Ladaci, S., Charef, A., Loiseau, J.J.: Fractional order extremum seeking approach for maximum power point tracking of photovoltaic panels. Front. Energy. 9(1), 43–53 (2015)CrossRef

45.

Aghababa, M.P.: Fractional modeling and control of a complex nonlinear energy supply-demand system. Complexity. 20(6), 74–86 (2014)MathSciNetCrossRef

46.

Podlubny, I.: Fractional Differential Equations. Academic Press, San Diego (1999)MATH

47.

Charef, A., Sun, H.H., Tsao, Y.Y., Onaral, B.: Fractal system as represented by singularity function. IEEE Trans. Autom. Control 37, 1465–1470 (1992)MathSciNetCrossRef

48.

Oustaloup, A.: La commande CRONE (in French). Hermès, Paris (1991)MATH

49.

Mboup, A.B., Guérin, F., Lefebvre, D., Ndiaye, P.A.: Control design for multisource systems based on DC/DC converters duty cycle value. Int. J. Comput. Math. Electr. Electron. Eng. 30(1), 310–335 (2011)CrossRef

50.

Zerkaoui, S., Mboup, A.B., Lefebvre, D., Guérin, F., Bosche, J., El Hajjaji, A.: Sliding mode based control strategy for multi-sources renewable energy system. In: Proceedings of the IEEE Int. Conf. Electric Power Energy Conversion Systems, EPECS, Sharjah, UAE, pp. 1–6 (2009)

51.

Guérin, F., Lefebvre, D., Mboup, A.B., Parédé, J.Y., Lemains, E., Sarr Ndiaye, P.A.: Hybrid modeling for performance evaluation of multisource renewable energy systems. IEEE Trans. Autom. Sci. Eng. 8(3), 570–580 (2011)CrossRef

52.

Ladaci, S., Loiseau, J.J., Charef, A., Using fractional order filter in adaptive control of noisy plants. In: Proceedings of the 3rd International Conference on Advances in Mechanical Engineering And Mechanics, ICAMEM’2006, 17–19 December, Tunisia (2006)

Titel: Fractional-order model reference adaptive control of a multi-source renewable energy system with coupled DC/DC converters power compensation
verfasst von: Sihem Djebbri
Samir Ladaci
Abderezzak Metatla
Hanane Balaska
Publikationsdatum: 17.12.2018
Verlag: Springer Berlin Heidelberg
Erschienen in: Energy Systems / Ausgabe 2/2020
Print ISSN: 1868-3967
Elektronische ISSN: 1868-3975
DOI: https://doi.org/10.1007/s12667-018-0317-5

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