Intelligent Designing of PV Systems to deal with Partial Shading Effects.

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Title
Intelligent Designing of PV Systems to deal with Partial Shading Effects.

CoPED ID
0f2bcef7-2969-46d5-9e86-19d82e995c06

Status
Active


Value
No funds listed.

Start Date
Sept. 30, 2021

End Date
March 31, 2025

Description

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The immense use of electronic appliances in this era, rapid consumption of fossil fuels, atmospheric issues, and energy crisis have attracted wide attention toward the usage and exploration of renewable energy (RE). Photovoltaic (PV) energy is an abundantly available source among RE sources because it is universal, freely available, and eco-friendly. Also, it has fewer operational and maintenance costs and is economically attractive for a longer duration of time with several other benefits. PV systems have been in high demand over the past decade with their total global installation amount of more than 500 GW. Clean electrical energy can be obtained from solar energy using PV arrays. PV arrays are made by making parallel and series combinations of PV modules that make a basic part of PV systems. The PV array has a high nonlinear relation between output current and voltage and it depends mainly on atmospheric conditions like temperature and irradiance. Furthermore, there are many internal and external factors affecting the output efficiency of PV systems such as solar irradiance, series, and parallel resistance, internal temperature, diode factor, load, PV array surface, shadow, dirt, etc., The uniform and non-uniform distribution of irradiance over the PV arrays gives rise to conditions called uniform shading condition (USC) and partial shading condition (PSC) respectively. The partial shading can occur due to several objects i.e., clouds, trees, buildings, a flying plane, a flying bird, etc. In this research work, a detailed investigation will be carried out to mitigate the partial shading effects through MPP tracking, Array reconfiguration, and system modeling. The simulations will be carried out on Matlab/Simulink and hardware implementation will be carried out to validate the results. The proposed work will be compared with recent works in literature to prove its effectiveness.

Mohammed Elgendy SUPER_PER

Subjects by relevance
  1. Solar energy
  2. Renewable energy sources
  3. Energy consumption (energy technology)

Extracted key phrases
  1. PV array surface
  2. PV Systems
  3. Intelligent designing
  4. Partial Shading Effects
  5. Uniform shading condition
  6. Partial shading condition
  7. Pv array
  8. Clean electrical energy
  9. Solar energy
  10. Energy crisis
  11. Renewable energy
  12. Immense use
  13. Atmospheric condition
  14. System modeling
  15. Solar irradiance

Related Pages

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