In order to efficiently store heat, it is necessary to use a material with a high specific heat capacity. Not all of the illumination can be harnessed by photovoltaic panels to produce electrical energy. Due to the low energy conversion efficiency, the temperature of the cell rises during operation. As the operating temperature increases, the cell's performance declines. This paper presents a comparative study on the impact of different cooling techniques, such as phase change material cooling, thermoelectric cooling, and nanotube cooling, on the operating temperature. The objective of this paper is to enhance the temperature of the panel under three specific environmental conditions by examining the influence of cooling on the panel's various parameters. Researchers found that applying a fine spray of water to both the front and back surfaces of a solar panel led to the largest fluctuations in temperature, making it the most efficient method.