Modified flower pollination algorithm for an off-grid solar photovoltaic system

Awan, Muhammad Mateen Afzal; Mahmood, Tahir

doi:10.22581/muet1982.2204.10

Cited by 21 publications

(5 citation statements)

References 16 publications

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“…On substituting the parametric values, the final closed-loop controlled transfer function is given as (14),…”

Section: Digital Compensation and Pid Controlmentioning

confidence: 99%

“…The most important contribution of this article is to inter-relate the dynamics of the buck converter and the perturbations in PV due to the occurrence of PSC. From the sub-section 2.2, the discrete PID controller will be the heart of handling the output voltage dynamics and adjust the duty cycle based on the transfer function (14).…”

Section: Termination Criterion and Modified Voltage Control Loopmentioning

confidence: 99%

“…An elaborated SWOT analysis have been discussed in [6] with technical justifications, which reviewed the performance of conventional MPPT and softcomputing based MPPT techniques. In summary, recent developments of soft-computing based MPPT algorithms in PSC like Fuzzy Logic Control (FLC) , Sliding Mode Control (SMC) [7], Artificial Neural Network (ANN) [8], Genetic Algorithm (GA) [9], Particle Swarm Optimization (PSO) [10], Cuckoo Search (CS) [11], Ant Colony(ACO) and Artificial Bee Optimization (ABO) [12], Random Search (RSM), Differential Evolution (DE) [13], Grey Wolf Optimization (GWO) [9], Flower Pollination (FPA) [14] are discussed in the literature.…”

Section: Introductionmentioning

confidence: 99%

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Experimental Investigation of efficiency enhancement in Solar Photovoltaic Systems under Partial Shading Conditions using Discrete Time Slime Mould Optimization

Shunmugalatha

2023

Preprint

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The Solar PhotoVoltaic (SPV) systems are the trending and commercially reputable power source abundantly served by the nature to the mankind. Partial Shading Conditions (PSC) are one of the critical concepts in the SPV maximum power extraction. PSC’s are nonlinear and fuzzy in its attributes, as it is unpredictable. Hence, it has numerous Local Maximum Peak Power (LMPP) points. Although, a wide spread of Maximum Power Point Tracking (MPPT) algorithms are doing justice in locating the peak power points and stabilize the system, they are inadequate to locate the LMPP’s and the Global Maximum Peak Power (GMPP) point. This paper proposes a discrete time-based Slime Mould Optimization (SMO), providing an effective support to the buck converter based MPPT controller for SPV systems. The analysis and testament of buck converter in discrete domain alleviates the optimization in discrete samples, which accelerates the computation speed in locating the LMPP and GMPP. The proposed methodology is validated from the predominant parametric results like tracking time, power efficiency and the stability of the system under various PSC’s. The experimental implementations are performed in MATLAB simulations and experimented with dSPACE-MicroLabBox.

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“…On substituting the parametric values, the final closed-loop controlled transfer function is given as (14),…”

Section: Digital Compensation and Pid Controlmentioning

confidence: 99%

Section: Termination Criterion and Modified Voltage Control Loopmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Experimental Investigation of efficiency enhancement in Solar Photovoltaic Systems under Partial Shading Conditions using Discrete Time Slime Mould Optimization

Shunmugalatha

2023

Preprint

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“…Given that solar irradiation is inconsistent and unavailable at night, grid-tied solar technology is one of the most dependable ways to meet user load requirements. It supplies electricity to consumers throughout the day and uses a grid-tie mechanism to export excess energy to the grid [9,10]. Solar cell power generation is direct dependent on the sun irradiance on collector plane and inverse in relation with the temperature, high temperature decreases the efficiency of solar cell [11,12].…”

Section: Introductionmentioning

confidence: 99%

Performance analysis of PVSyst based grid connected photovoltaic systems in Pakistan compared to SAARC countries

Khan,

Ahmad,

Raza

et al. 2024

Mehran Univ. res. j. eng. technol.

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Electricity demand increasing day by day with the passage of time, fossil fuels and traditional electricity sources are becoming obsolete. The possibility of dealing with a power deficit and importing oil and gas for electricity generation exists for developing nations like Pakistan. One of the most accessible and affordable sources of renewable energy in the world is solar power generating. Photovoltaic (PV) cell performance is influenced by the environment and the technology used to capture the available energy. The Islamabad region of Pakistan is blessed with an average of 300 days of sunshine a year due to its location in the solar band at 33.7215°N latitude and 73.0433°E longitude. The current study compares and contrasts how Pakistan and South Asian Association for Regional Cooperation (SAARC) countries generate electricity using solar systems. Choosing one geographical place from all SAARC nations, PVSyst software is used to develop and estimate the performance study for solar model cell Panasonic 320Wp, 48V and 1.5 kW Inverter Fronius for a 9.6 kWp load. Energy supplied into the grid is studied together with various losses that occur in the system, with the choice of PV arrays and other factors remaining the same for comparison study of all SAARC countries. The approach to minimize losses through the utilization of an adjustable tilt angle has been implemented. This study will be useful in estimating and planning the solar energy output in all SAARC nations for the same photovoltaic system, and it will be simple to trade all PV system components in the region.

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“…[3]. Whereas solar photovoltaic (PV) technology directly converts sunlight into electrical energy using the photoelectric effect, which makes it the most attractive and simple energy generation technology [4,5]. Solar PV has hot research gaps to fill that include, PV cells' material efficiency, maximum power point tracking efficiency, and speed.…”

Section: Introductionmentioning

confidence: 99%

Ordering Technique for the Maximum Power Point Tracking of an Islanded Solar Photovoltaic System

et al. 2023

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The world’s attention has turned towards renewable energy due to escalating energy demands, declining fossil fuel reservoirs, greenhouse gas emissions, and the unreliability of conventional energy systems. The sun is the only renewable energy source that is available every day for a specific period of time. Solar photovoltaic (PV) technology is known for its direct conversion of sunlight into electricity using the photoelectric effect. However, due to the non-linear electrical characteristics, the power output of solar PV cells is bound to a lower value and can not produce the power of which it is capable. To extract the maximum possible power, the PV cell needs to be operated at its maximum power point (MPP) uninterruptedly under numerous weather conditions. Therefore, an electronic circuit driven by a set of rules known as an algorithm is utilized. To date, the flower pollination algorithm (FPA) is one of the most renowned maximum power point tracking (MPPT) algorithms due to its effective tracking ability at the local and global positions. After an in-depth analysis of the design, strengths, weaknesses, and opportunities of the FPA algorithm, we have proposed an additional filtration and distribution process named “Random walk” along with the ordering of solutions, to improve its efficiency and tracking time. The proposed structure named “Ordered FPA” has outperformed the renowned FPA algorithm under various weather conditions at all the standard benchmarks. Simulations are performed in MATLAB/Simulink.

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Modified flower pollination algorithm for an off-grid solar photovoltaic system

Cited by 21 publications

References 16 publications

Experimental Investigation of efficiency enhancement in Solar Photovoltaic Systems under Partial Shading Conditions using Discrete Time Slime Mould Optimization

Experimental Investigation of efficiency enhancement in Solar Photovoltaic Systems under Partial Shading Conditions using Discrete Time Slime Mould Optimization

Performance analysis of PVSyst based grid connected photovoltaic systems in Pakistan compared to SAARC countries

Ordering Technique for the Maximum Power Point Tracking of an Islanded Solar Photovoltaic System

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