Year 2020,
Volume: 15 Issue: 2, 85 - 92, 24.09.2020
Zeynep Bala Duranay
,
Hanifi Güldemir
References
- [1] Sheila JH, Alicen K. Renewable Energy Applications for Existing Buildings. Oak Ridge, TN, USA: US Department of Energy, 2011.
- [2] Taibi E, Gielen D, Bazilian M. The potential for renewable energy in industrial applications. Renewable Sustainable Energy Rev 2012; 16(1): 735-744.
- [3] Chel A, Kaushik G. Renewable energy for sustainable agriculture. Agron. Sustainable Dev 2011; 31(1): 91-118.
- [4] Singh GK. Solar power generation by PV (photovoltaic) technology: a review. Energy 2013; 53: 1-13.
- [5] Van Campen B, Guidi D, Best G. Solar Photovoltaics for Sustainable Agriculture and Rural Development. Rome: FAO Publication, 2000.
- [6] Duranay ZB, Guldemir H. Modelling and simulation of a single phase standalone PV system. In: ECAI 2019 International Conference, 11th Edition Electronics, Computers; 27-29 June 2019; Pitesti, Romania.
- [7] Akikur RK, Saidur R, Ping HW, Ullah KR. Comparative study of stand-alone and hybrid solar energy systems suitable for off-grid rural electrification: a review. Renewable Sustainable Energy Rev 2013; 27: 738-752.
- [8] Ghafoor A, Munir A. Design and economics analysis of an off-grid PV system for household electrification. Renewable Sustainable Energy Rev 2015; 42: 496-502.
- [9] Sukamongkol Y, Chungpaibulpatana S, Ongsakul W. A simulation model for predicting the performance of a solar photovoltaic system with alternating current loads. Renewable energy 2002; 27(2): 237-258.
- [10] Guldemir H. Sliding mode control of DC-DC boost converter. Journal of Applied Sciences 2005; 5(3): 588-592.
- [11] Habetler TG, Naik R, Nondahl TA. Design and implementation of an inverter output LC filter used for dv/dt reduction. IEEE Trans Power Electron 2002; 17(3): 327-331.
- [12] Kim SJ, Sul SK. A novel filter design for suppression of high voltage gradient in voltage-fed PWM inverter. In: IEEE Appl Power Electron Conf; 27 February 1997; Atlanta, GA, USA. pp. 122–127
- [13] Von Jouanne A, Rendusara D, Enjeti P, Gray W. Filtering techniques to minimize the effect of long motor leads on PWM inverter-fed AC motor drives. In: IEEE/IAS Ann Meeting Conf; 8-12 October 1995; Orlando, FL, USA. pp. 37–44.
- [14] Steinke J, Stulz C, Pohjalainen P. Use of a LC filter to achieve a motor friendly performance of the PWM voltage source inverter. In: 1997 Int. Electric Mach. Drives Conf., 2001.
- [15] Renzhong X, Lie X, Junjun Z, Lie D. Design and research on the LCL filter in three-phase PV grid-connected inverters. International Journal of Computer and Electrical Engineering 2013; 5(3): 322-325.
- [16] Liserre M, Blaabjerg F, Hansen S. Design and control of an LCL-filter-based three-phase active rectifier. IEEE Trans Ind Appl 2005; 41(5); 1281-1291.
- [17] Ahmad AA, Abrishamifar A, Farzi M. A new design procedure for output LC filter of single phase inverters. In: 3rd International Conference on Power Electronics and Intelligent Transportation System; January 2010; China. pp. 86-91.
- [18] Pavkovic D, Kristovic P, Hrgetic M,Komljenovic A, Uzarevic V. Single phase AC inverter current PR control with auxiliary PI controller for DC current suppression. In: IEEE EUROCON 2017-17th International Conference on Smart Technologies; 6-8 July 2017; Ohrid, Macedonia. pp. 324-329.
- [19] Terzic B, Majic G, Slutej A. Stability analysis of three-phase PWM converter with LCL filter by means of nonlinear model. Automatika 2010; 51(3): 221-232.
- [20] Reznik A, Simoes MG, Al-Durra A, Muyeen SM. LCL filter design and performance analysis for grid-interconnected systems. IEEE Trans Ind Appl 2014; 50(2): 1225-1232.
- [21] Casadei D, Grandi G, Rossi C. Single-phase single-stage photovoltaic generation system based on a ripple correlation control maximum power point tracking. IEEE Trans Energy Convers 2006; 21(2): 562-568.
- [22] Duranay ZB, Guldemir H, Tuncer S. Fuzzy sliding mode control of DC-DC boost converter. Engineering, Technology and Applied Science Research 2018; 8(3): 3054-3059.
Voltage Controlled Boost Converter-Inverter System for Photovoltaic Applications
Year 2020,
Volume: 15 Issue: 2, 85 - 92, 24.09.2020
Zeynep Bala Duranay
,
Hanifi Güldemir
Abstract
Photovoltaic electric energy generation systems are attractive for the places far from the electric grid system and for small scale applications. Off-grid inverters are widely used in renewable energy applications. Most of the applications such as home appliances require constant voltage. Thus, the voltage of the inverter needs to be kept constant. In this paper, the analysis, modelling, control and simulation of a photovoltaic module fed boost converter-inverter system is studied. The PV fed boost converter provides dc link for the inverter. The cascade connection of boost converter and an inverter provides sinusoidal voltage to the ac loads. A conventional proportional+integral (PI) controller is used to obtain a constant dc link voltage even with input voltage variations. Matlab-Simulink programming environment is used for the modelling and simulations. The simulation results are presented.
References
- [1] Sheila JH, Alicen K. Renewable Energy Applications for Existing Buildings. Oak Ridge, TN, USA: US Department of Energy, 2011.
- [2] Taibi E, Gielen D, Bazilian M. The potential for renewable energy in industrial applications. Renewable Sustainable Energy Rev 2012; 16(1): 735-744.
- [3] Chel A, Kaushik G. Renewable energy for sustainable agriculture. Agron. Sustainable Dev 2011; 31(1): 91-118.
- [4] Singh GK. Solar power generation by PV (photovoltaic) technology: a review. Energy 2013; 53: 1-13.
- [5] Van Campen B, Guidi D, Best G. Solar Photovoltaics for Sustainable Agriculture and Rural Development. Rome: FAO Publication, 2000.
- [6] Duranay ZB, Guldemir H. Modelling and simulation of a single phase standalone PV system. In: ECAI 2019 International Conference, 11th Edition Electronics, Computers; 27-29 June 2019; Pitesti, Romania.
- [7] Akikur RK, Saidur R, Ping HW, Ullah KR. Comparative study of stand-alone and hybrid solar energy systems suitable for off-grid rural electrification: a review. Renewable Sustainable Energy Rev 2013; 27: 738-752.
- [8] Ghafoor A, Munir A. Design and economics analysis of an off-grid PV system for household electrification. Renewable Sustainable Energy Rev 2015; 42: 496-502.
- [9] Sukamongkol Y, Chungpaibulpatana S, Ongsakul W. A simulation model for predicting the performance of a solar photovoltaic system with alternating current loads. Renewable energy 2002; 27(2): 237-258.
- [10] Guldemir H. Sliding mode control of DC-DC boost converter. Journal of Applied Sciences 2005; 5(3): 588-592.
- [11] Habetler TG, Naik R, Nondahl TA. Design and implementation of an inverter output LC filter used for dv/dt reduction. IEEE Trans Power Electron 2002; 17(3): 327-331.
- [12] Kim SJ, Sul SK. A novel filter design for suppression of high voltage gradient in voltage-fed PWM inverter. In: IEEE Appl Power Electron Conf; 27 February 1997; Atlanta, GA, USA. pp. 122–127
- [13] Von Jouanne A, Rendusara D, Enjeti P, Gray W. Filtering techniques to minimize the effect of long motor leads on PWM inverter-fed AC motor drives. In: IEEE/IAS Ann Meeting Conf; 8-12 October 1995; Orlando, FL, USA. pp. 37–44.
- [14] Steinke J, Stulz C, Pohjalainen P. Use of a LC filter to achieve a motor friendly performance of the PWM voltage source inverter. In: 1997 Int. Electric Mach. Drives Conf., 2001.
- [15] Renzhong X, Lie X, Junjun Z, Lie D. Design and research on the LCL filter in three-phase PV grid-connected inverters. International Journal of Computer and Electrical Engineering 2013; 5(3): 322-325.
- [16] Liserre M, Blaabjerg F, Hansen S. Design and control of an LCL-filter-based three-phase active rectifier. IEEE Trans Ind Appl 2005; 41(5); 1281-1291.
- [17] Ahmad AA, Abrishamifar A, Farzi M. A new design procedure for output LC filter of single phase inverters. In: 3rd International Conference on Power Electronics and Intelligent Transportation System; January 2010; China. pp. 86-91.
- [18] Pavkovic D, Kristovic P, Hrgetic M,Komljenovic A, Uzarevic V. Single phase AC inverter current PR control with auxiliary PI controller for DC current suppression. In: IEEE EUROCON 2017-17th International Conference on Smart Technologies; 6-8 July 2017; Ohrid, Macedonia. pp. 324-329.
- [19] Terzic B, Majic G, Slutej A. Stability analysis of three-phase PWM converter with LCL filter by means of nonlinear model. Automatika 2010; 51(3): 221-232.
- [20] Reznik A, Simoes MG, Al-Durra A, Muyeen SM. LCL filter design and performance analysis for grid-interconnected systems. IEEE Trans Ind Appl 2014; 50(2): 1225-1232.
- [21] Casadei D, Grandi G, Rossi C. Single-phase single-stage photovoltaic generation system based on a ripple correlation control maximum power point tracking. IEEE Trans Energy Convers 2006; 21(2): 562-568.
- [22] Duranay ZB, Guldemir H, Tuncer S. Fuzzy sliding mode control of DC-DC boost converter. Engineering, Technology and Applied Science Research 2018; 8(3): 3054-3059.