PERFORMANCE AMPLIFICATION OF PV SYSTEM CONFIGURATIONS UNDER PARTIAL SHADING CONDITIONS EMPLOYING MAGIC SQUARE TECHNIQUE
Abstract
Nonrenewable sources of energy are inadequate to satisfy the electricity requirement with the rapid
development of industries and other areas. Also, high consumption of these sources is inversely
related to its life expectancy. Thus, non-conventional sources of energy play an essential part in
generating electricity. Among all non-conventional resources, solar power is significant as it is
clean energy source, easily and freely available, requires lesser maintenance, ecofriendly and
economical. The Photovoltaic (PV) cells are widely used all over the world to convert energy of
sun into electricity. The functioning of system is concerned by elements like irradiation,
temperature rise, array topologies and shading effects on panels.
The intent of my work is inspecting and amplify yield of operating solar systems. Two of the major
concerns in solar array due to partial shading are: Increase in Mismatch Losses (ML) and decrease
in efficiency. The complete PV array system is concerned negatively with regard to efficiency by
a little measure of shading on the PV module. The shading is the consequence of moving clouds,
high rise buildings, long trees, shadow of one panel onto another etc. Due to this partial shading,
many challenges occur in enhancing the performance of the PV solar array. The challenges include
deviation of Maximum Power Point (MPP), power losses resulting in hot spot formation,
degradation in power quality etc.
In this thesis, modeling of PV module is done using MATLAB/SIMULINK by combining
subsystems of PV panel. The panels are then joined with each other in Series (S), Parallel (P) and
Series Parallel (SP) connections to form an array. Different configurations have been implemented
on PV solar array to observe their performance at different shading scenarios. The performance of
these topologies has been highlighted with respect power obtained, losses because of shading, Fill
Factor (FF) and overall efficiency of solar system. Simulated way is utilized to explain the
functioning and estimation of all topologies. The electrical characteristics are also obtained by
MATLAB. As per data achieved, Magic Square (MS) method have obtained highest power among
all topologies.