Designing a solar system that improved the solar system's performance in instances of partial shadowing

Abstract

The great and decisive influence of the decision of nature or the natural factors of the earth, especially the strength of the solar radiation emitted by the sun and the temperature, remains an important condition and a factor that must be when talking about the exploitation or use of solar energy. From the beginning of the manufacture of solar cells to this day, the solar cell, which is the smallest component of the solar module or structure, has faced many challenges and difficulties, including design, manufacturing and cost challenges in addition to natural and abnormal factors. Among those challenges are natural and unnatural factors such as partial shading or full shading of the solar cell or the solar cells within the solar structure in the solar system, which directly affects the process of producing solar cells from electrical energy. As a result, these natural and unnatural challenges prevent the optimal and full exploitation of solar energy. Through this research paper, a new strategy was found, which is a simple electronic system to enhance the performance of solar cell production within the solar structure in the solar system, and this strategy includes the establishment of a new existing solar system. On a boosting system linked with the solar structure through which this electronic system can be connected to be an integral part of a solar system, to enhance the solar system's effectiveness in the production of electrical energy. The new solar system works in any conditions (natural and abnormal) and any type of shading (partial or total) for the solar panel or structure, through this new system, The quantity of electrical energy generated by the new solar system is equal to twice the energy of solar cells or arrays solar system within the solar structure under normal circumstances. In addition, the use of solar radiation tracking techniques is not important, as it is the strategic comparison used to determine the maximum power point tracking (MPPT) technology under various circumstances to produce good solar energy in poor lighting conditions by concentrating on the impacts of shadowing on the array of solar photovoltaic panels, a strategy that did not succeed in maintaining the productivity of the solar array from electrical energy in natural conditions, but the proposed model or the new methodological strategy helped to maintain the productivity of the solar cells or solar array from electrical energy in addition to increasing the production of electrical energy under the bad exposure conditions of the solar system. The proposed model is chosen in view of the fact that it may be able to reproduce different ranges of non-standard PV frames standardized by a new solar system with good multidimensional uses. The study may be presented here as a suitable source for future business of power generation (PV).