Authors :
MST ISHRAT JAHAN; MD SABBER AHAMMED; MD AMIR SHOHEL
Volume/Issue :
Volume 7 - 2022, Issue 5 - May
Google Scholar :
https://bit.ly/3IIfn9N
Scribd :
https://bit.ly/3zh4mv6
DOI :
https://doi.org/10.5281/zenodo.8238552
Abstract :
Solar energy is an endless, clean, and
renewable energy source, yet only a small portion of it is
used to directly power human activities. Various types
of renewable energy, including the most significant,
solar energy, have been addressed. Solar modules are
devices that convert sunlight directly into electricity.
The maximum power of photovoltaic systems is critical
for the system's practical usage. A solar array model
was created with the help of MATLAB. The Matlab
simulation shows that at different irradiance levels and
temperatures. The Matlab simulink photovoltaic array
model is evaluated, and the results of the V-P and V-I
characteristics verify the validity of the Simulink
photovoltaic array model. After simulating the PV
array in MATLAB under various irradiance and
temperature conditions, we obtained a collection of
data. MPPT extracts the maximum amount of
electricity from a photovoltaic array. The proposed
method utilizes monitoring of maximum power points to
approach in the direction of extracting the most
powerful solar energy output with little to no oscillation
in the output photovoltaic system. The effectiveness of
conversion from a photovoltaic method is increased by
employing the Cuk Converter and the MPPT algorithm.
By altering its duty cycle, the Cuk converter steps up or
steps down the photovoltaic voltage level. The MPPT
algorithms were created in MATLAB and tested in a
simulated environment. Simulation Power System
blocks is used to represent the photovoltaic array and
Cuk Converter.
Keywords :
Solar; Solar module; PV; MPPT; Cuk Converter; Duty Cycle; MATLAB; P & O Algorithm; Irradiation; Temperature.
Solar energy is an endless, clean, and
renewable energy source, yet only a small portion of it is
used to directly power human activities. Various types
of renewable energy, including the most significant,
solar energy, have been addressed. Solar modules are
devices that convert sunlight directly into electricity.
The maximum power of photovoltaic systems is critical
for the system's practical usage. A solar array model
was created with the help of MATLAB. The Matlab
simulation shows that at different irradiance levels and
temperatures. The Matlab simulink photovoltaic array
model is evaluated, and the results of the V-P and V-I
characteristics verify the validity of the Simulink
photovoltaic array model. After simulating the PV
array in MATLAB under various irradiance and
temperature conditions, we obtained a collection of
data. MPPT extracts the maximum amount of
electricity from a photovoltaic array. The proposed
method utilizes monitoring of maximum power points to
approach in the direction of extracting the most
powerful solar energy output with little to no oscillation
in the output photovoltaic system. The effectiveness of
conversion from a photovoltaic method is increased by
employing the Cuk Converter and the MPPT algorithm.
By altering its duty cycle, the Cuk converter steps up or
steps down the photovoltaic voltage level. The MPPT
algorithms were created in MATLAB and tested in a
simulated environment. Simulation Power System
blocks is used to represent the photovoltaic array and
Cuk Converter.
Keywords :
Solar; Solar module; PV; MPPT; Cuk Converter; Duty Cycle; MATLAB; P & O Algorithm; Irradiation; Temperature.