Abstract
In this chapter, the application of sensorless vector control drives to control a photovoltaic (PV) motor pumping system has been presented. The main objective of this work is to design and analyze a single stage maximum power point tracking (MPPT) and eliminate the speed encoder. Elimination of the speed encoder aims to increase the reliability of the PV motor pumping system. Moreover, the incremental conductance method is used for MPPT of the PV system. The principles of vector control have been applied to control the single stage of VSI fed the three-phase induction motor. Furthermore, a full order observer has been designed to estimate the rotor speed of the motor pumping system. MATLAB/SIMULINK simulation has been used in order to validate the proposed algorithm.
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Ropp ME, Gonzalez S (2009) Development of a MATLAB/simulink model of a single-phase grid-connected photovoltaic system. IEEE Trans Energy Convers 24(1):195–202
Ministry of Electricity and Renewable Energy (New & Renewable Energy Authority (NREA)). Annual Report April 2015 of (NREA). http://www.nrea.gov.eg/annual%20report/Annual%20Report%202015.pdf
Metwally HM, Anis WR (1997) Performance analysis of PV pumping systems using switched reluctance motor drives. Energy Convers Manag 38(1):1–11
Hamrouni N, Jraidi M, Chérif A (2008) Solar radiation and ambient temperature effects on the performances of a PV pumping system. Rev Energ Renouvelables 11(1):95–106
Bose BK (2010) Power electronics and motor drives: advances and trends. Elsevier
Casadei D, Profumo F, Serra G, Tani A (2002) FOC and DTC: two viable schemes for induction motors torque control. IEEE Trans Power Electron 17(5):779–787
Ishaque K, Salam Z, Taheri H (2011) Simple, fast and accurate two-diode model for photovoltaic modules. Sol Energy Mater Sol Cells 95(2):586–594
Sah CT, Noyce RN, Shockley W (1957) Carrier generation and recombination in P-N junctions and P-N junction characteristics. Proc IRE 45(9):1228–1243
Ishaque K, Salam Z (2011) A comprehensive MATLAB simulink PV system simulator with partial shading capability based on two-diode model. Sol Energy Elsevier 85(9):2217–2227
Kashif I, Zainal S, Hamed T (2011) Accurate MATLAB simulink PV system simulator based on a two-diode model. J Power Electron 11(2):179–187
Ishaque K, Salam Z, Taheri H (2011) Modeling and simulation of photovoltaic (PV) system during partial shading based on a two-diode model. Simul Model Pract Theory Elsevier 19(7):1613–1626
Mahmoud MEE, Ahmed MK, Diab AAZ, Hasaneen BM (2017) Modelling and simulation of photovoltaic array fed induction motor based on field oriented control and single stage MPPT inverter for water pumping system. Journal of Multidisciplinary Engineering Science and Technology (JMEST) 4(10):8562–8569
Kjaer SB, Pedersen JK, Blaabjerg F (2005) A review of single-phase grid-connected inverters for photovoltaic modules. IEEE Trans Ind Appl 41(5):1292–1306
Zakzouk N, Abdelsalam A, Helal A, Williams B (2014) DC-link voltage sensorless control technique for single-phase two-stage photovoltaic grid-connected system. In: Energy conference (ENERGYCON), IEEE international, pp 58–64
Pottebaum JR (1984) Optimal characteristics of a variable-frequency centrifugal pump motor drive. IEEE Trans Ind Appl 23–31
Jang D-H, Choe G-H, Ehsani M (2015) Vector control of three-phase AC machines: system development in the practice. In: Power systems, 2nd edn. Springer
Esram T, Chapman PL (2007) Comparison of photovoltaic array maximum power point tracking techniques. IEEE Trans Energy Convers EC 22:439
Thangaraj R, Chelliah TR, Pant M, Abraham A, Grosan C (2011) Optimal gain tuning of PI speed controller in induction motor drives using particle swarm optimization. Log J IGPL 19(2):343–356
Diab AAZ (2014) Real-time implementation of full-order observer for speed sensorless vector control of induction motor drive. J Control Autom Electr Syst 25(6):639–648. https://doi.org/10.1007/s40313-014-0149-z
Diab AAZ, Kotin DA, Anosov VN, Pankratov VV (2014) A comparative study of speed control based on MPC and PI-controller for indirect field oriented control of induction motor drive. In: 12th international conference on actual problems of electronics instrument engineering (APEIE), Novosibirsk, pp 728–732
Jin C, Li G, Qi X, Ye Q, Zhang Q, Wang Q (2016) Sensorless vector control system of induction motor by nonlinear full-order observer. In: 2016 IEEE 11th conference on industrial electronics and applications, Hefei, China, 5–7 June 2016
Diab AAZ, Vdovin VV, Kotin DA, Anosov VN, Pankratov VV (2014) Cascade model predictive vector control of induction motor drive. In: 12th international conference on actual problems of electronics instrument engineering (APEIE), Novosibirsk, pp 669–674
Goyat S, Ahuja RK (2012) Speed control of induction motor using vector or field oriented control. Int J Adv Eng Technol 4(1):475
Diab AAZ (2017) Implementation of a novel full-order observer for speed sensorless vector control of induction motor drives. Elect Eng 99(3):907–921. https://doi.org/10.1007/s00202-016-0453-7
Diab AAZ, Hefnawy H, Elsayed AM (2019) Sensorless vector control drive for photovoltaic array fed induction motor with single stage MPPT inverter for water pumping system. In: Tanta university 5th international conference on scientific ISR, Sharm El Sheikh, 26–29 Mar 2019
Krishnan R (2001) Electric motor drives: modeling, analysis, and control. Prentice Hall
Mohan N (2014) Advanced electric drives: analysis, control, and modeling using MATLAB/simulink. Wiley
Datasheet of LORENTZ PS9k2 C-SJ42-4 (2019) http://kgelectric.co.za/assets/product_docs/lorentz/submersibles/datasheets/PSk2/LORENTZ_PS9k2_c-sj42-4_pi_en_ver301051.pdf
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Diab, A.A.Z., Al-Sayed, AH.M., Abbas Mohammed, H.H., Mohammed, Y.S. (2020). Sensorless Vector Control for Photovoltaic Array Fed Induction Motor Driving Pumping System. In: Development of Adaptive Speed Observers for Induction Machine System Stabilization. SpringerBriefs in Electrical and Computer Engineering. Springer, Singapore. https://doi.org/10.1007/978-981-15-2298-7_4
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DOI: https://doi.org/10.1007/978-981-15-2298-7_4
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