PV-battery energy storage system operating of asynchronous motor driven by using fuzzy sliding mode control

Lekhchine, S.; Bahi, Tahar; Abadlia, Issam; Bouzeria, Hamza

doi:10.1016/j.ijhydene.2016.05.298

Cited by 25 publications

(18 citation statements)

References 14 publications

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“…PV RERs, implemented with different topologies and control methodologies, are classified into two main categories: grid and standalone connected applications [40], so as in the latter type a DC-DC converter is used between a DC load and PV sources for maximum power point tracking (MPPT) purposes [41]. In the standalone scheme, batteries as storage elements are necessary for the night hours, to solve the issue of installing a lot of panels to provide the energy that the load require [42], but these require frequent replacement [43], which increases the overall system cost [41]. Hence, a gridconnected topology is preferred, since it can be implemented by directly via coupling inverters to grids without including DC-DC converters [44].…”

Section: Pv System Modeling and Mpptmentioning

confidence: 99%

Performance Analysis and Techno-Economic Optimization of Green Energy Systems for Remote Areas in the Maghreb

Siyoucef

Afif

Kobibi

et al. 2021

Technol Econ Smart Grids Sustain Energy

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All interventions that enhance livelihoods of poor rural families in remote areas of the Maghreb will positively impact standard living, involve technological solutions, and likely enhance agricultural production, which in turn can further contribute to poverty reduction. Hybrid green energy systems (HGESs) have been more exploited to supply a mobile base transceiver station (BTS) by clean electricity, or assess the energy availability in smart grids (SGs) of such areas. In this paper, a HGES has been modeled to produce energy from PV/Wind HGES in grid-connected BTS or SG sites, using MATLAB to solve a theoretical model, and simulated with a suitable configuration for performance analysis and optimal sizing. A techno-economic simulation, carried out using the HOMER package, has evaluated such HGES feeding BTS or SG in a remote area-prototype (RAP) of the Maghreb, and optimized the size and assess hybrid PV-Wind system based on weather conditions for RAP. The results may impact rural livelihood and improve standard living of people in such countries.

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Section: Pv System Modeling and Mpptmentioning

confidence: 99%

Performance Analysis and Techno-Economic Optimization of Green Energy Systems for Remote Areas in the Maghreb

Siyoucef

Afif

Kobibi

et al. 2021

Technol Econ Smart Grids Sustain Energy

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“…erefore, the research on the control method of nonlinear theory is of great signi cance to improve the dynamic and static performance of the AC asynchronous motor. At present, the nonlinear control methods applied to the asynchronous motor mainly include feedback linearization control [2], backstepping control [3], sliding mode control [4], active disturbance rejection control [5,6], and passive control theory [7,8]. e control performance of the system has been signi cantly improved for application of the above method.…”

Section: Introductionmentioning

confidence: 99%

“…Lekhchine et al designed a renewable energy storage electrical system for asynchronous motors. In this system, the motor is driven by sliding mode control, which can overcome the chattering phenomenon through the sliding surface based on fuzzy logic [4]. Li et al proposed a second-order ADRC and AC excitation control system based on stator ux oriented control to control the active and reactive power of the variable-speed pumped storage unit [5,6].…”

Section: Introductionmentioning

confidence: 99%

Design of Asynchronous Motor Controller Based on Controlled Lagrangians Method

Yun-bo

Liu²,

et al. 2022

Mathematical Problems in Engineering

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Asynchronous motor system has the characteristics of high order, strong coupling, and nonlinearity. From the dynamical model, it is the underactuated mechanical system, which means that the dimension of its input space is fewer than the degree of freedom. Following this perspective, the energy based nonlinear control technology-CL (controlled Lagrangians) method is used to solve the control problem in this paper. Based on the expected controlled energy and its derivative with respect to time, controlled Lagrangians and generalized force are constructed, and they produce the controlled equations. In order to ensure the complete matching between the controlled equation and the original equation, the gyroscopic forces containing the first-order term of velocity are innovatively introduced into the generalized force, and the matching conditions are obtained. By solving the matching conditions composed of some partial differential equations, the nonlinear smooth feedback control law can realize the global asymptotic stabilization of not only velocity but also position. Finally, the controlled energy is selected as the Lyapunov function, and the stability is proved according to the LaSalle invariant theorem. The effectiveness of the designed control law is demonstrated in the results of the simulation.

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“…Moreover, the resources of fossil energy are prone to run out. In the light of this confusion, many projects of research for clean and renewable sources of energy are opened all over the world and as a result of these researches, it has been found that the renewable energy sources like solar, wind, hydraulic, geothermic, and biomass are the best solution to keep up this rapid development to reduce most of the problems resulting from the previous methods of energy production …”

Section: Introductionmentioning

confidence: 99%

“…In the light of this confusion, many projects of research for clean and renewable sources of energy are opened all over the world and as a result of these researches, it has been found that the renewable energy sources like solar, wind, hydraulic, geothermic, and biomass are the best solution to keep up this rapid development to reduce most of the problems resulting from the previous methods of energy production. [3][4][5][6][7] Our desert region in southern Algeria is characterized by a greater solar field. 8,9 So, in this study the solar energy is chosen as source of electricity generation, where the solar energy is converted continuously into electrical energy through the PV panels; this energy can be used directly for DC loads or by using DC/AC inverters for alternative loads.…”

Section: Introductionmentioning

confidence: 99%

Low complexity SVM technique of control implementation by microcontroller for three phase solar inverter

Tayebi

Brahami

Yaichi

et al. 2019

Env Prog and Sustain Energy

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This article presents a method for simplifying the programming and implementation of the space vector modulation (SVM) algorithm, applied to the prototype of the three‐phase inverter for stand‐alone photovoltaic pumping system using induction motor. In this system, the control is usually based on V/f constant approach. It is known that the SVM approach is fully with mathematical formulas which complicate its implantation. The purpose of this work is to reduce both the SVM algorithm complexity and program size, which becomes about 2.55Ko, and this achievement done based on two procedures: the first, must fixes the location of angular set points on the trajectory of the reference voltage vector. The second is precalculation of the switching times and that is make it feasible and simple due to the technique V/f constant ratio. The proposed method makes the SVM algorithm implementation in the microcontroller PIC18F4550 more easier and tested in the real time platform to control the three legs inverter feeding an induction motor as load. The simulation and experimental results of the proposed method are presented and compared with the theoretical results of conventional SVM. The obtained results are very satisfactory for this kind of application.

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PV-battery energy storage system operating of asynchronous motor driven by using fuzzy sliding mode control

Cited by 25 publications

References 14 publications

Performance Analysis and Techno-Economic Optimization of Green Energy Systems for Remote Areas in the Maghreb

Performance Analysis and Techno-Economic Optimization of Green Energy Systems for Remote Areas in the Maghreb

Design of Asynchronous Motor Controller Based on Controlled Lagrangians Method

Low complexity SVM technique of control implementation by microcontroller for three phase solar inverter

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