Namangan Institute of Engineering and Technology
nammti.uz
10.25.2023
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IMPLEMENTATION OF SOLAR PANELS IN HIGH SOLAR RADIATION AND CONTINENTAL
CLIMATES
Sh.S.Djuraev, A.A.Tursunov, R.N.Sharifbayev
Namangan Institute of Engineering and Technology
Abstract: This article examines the implementation of solar panels in regions with high solar
radiation and continental climates. It discusses the theoretical underpinnings of solar energy, the
methods utilized for efficient solar panel installation, and the challenges and benefits specific to
such climates. This study aims to provide insights into optimizing solar energy usage in areas where
solar radiation is abundant, yet climate conditions are challenging.
Introduction. The quest for sustainable and renewable energy sources has led to a significant
focus on solar energy, particularly in regions with high solar radiation. Continental climates,
characterized by stark temperature differences between summer and winter, present unique
challenges and opportunities for solar energy implementation. This article explores the nuances of
installing and operating solar panels in these regions, emphasizing the need for innovative solutions
to maximize energy yield and efficiency.
The global shift towards renewable energy sources has highlighted solar power as a promising
and inexhaustible resource. Particularly in regions with high solar radiation, harnessing solar energy
presents an opportunity to significantly contribute to the energy mix. However, implementing solar
panels in areas characterized by continental climates - known for their extreme temperature
variations between summer and winter - presents a unique set of challenges and opportunities.
Continental climates, often found in the interiors of continents away from the moderating
influence of oceans, are marked by hot summers and cold winters. This temperature fluctuation can
impact the performance and longevity of solar panels. Despite these challenges, the abundance of
solar radiation in these regions provides a compelling case for the implementation of solar energy
systems.
This article delves into the various facets of implementing solar panels in such environments.
It explores the theoretical aspects of solar energy conversion, the practical methods of installation
suited for these climates, and the technological innovations that can enhance efficiency and
durability. Furthermore, it addresses the challenges posed by temperature extremes and proposes
solutions to overcome them.
The aim is to provide a comprehensive overview of how solar panels can be effectively
implemented in high solar radiation and continental climates, contributing to the global efforts in
sustainable energy production and climate change mitigation.
