Bifacial Solar Market Analysis by Size, Share, Growth, Trends, Opportunities and Forecast (2024-2032) | UnivDatos Market

According to a new report by UnivDatos Market Insights, the Bifacial Solar Market was valued at USD 9.2 Billion in 2023 and growing at a CAGR of 15.83%.

According to a new report by UnivDatos Market Insights, the Bifacial Solar Market was valued at USD 9.2 Billion in 2023 and growing at a CAGR of 15.83%. The solar energy market has been developing constantly during the past ten years with the help of technology that influenced the prices and effectiveness of energy. One of the most promising is bifacial solar technology which has attracted attention because of the simultaneous generation on both the front and the rear surface of the panel. Furthering the need for renewables, bifacial solar panels have gained widespread application across different regions, applications, sectors, and commercial industries. This article examines the current and future market tendencies, the dynamics of bifacial modules’ implementation, and critical determinants of the bifacial panel price to better understand the nature of bifacial solar solutions’ impact on the world’s power generation outlook.

Access sample report (including graphs, charts, and figures): https://univdatos.com/get-a-free-sample-form-php/?product_id=65512&utm_source=LinkSJ&utm_medium=Snehal&utm_campaign=Snehal&utm_id=snehal

Key Trends in the Bifacial Solar:

Bifacial solar technology is expected to accelerate the demand in the PV market as this technology offers more energy benefits as compared to mono-facial modules. Compared to the regular monocrystalline solar panels where only the front surface absorbs the sunlight, this bifacial generates the current on both sides, and depending on the way they are mounted, the efficiency could be increased to up to 30%. These technological advancements have led to a focus on areas that get high levels of irradiation, especially in areas with reflective surfaces such as snow, sand, or water this is because they enhance the power output.

Bifacial technology has been applied from the roofing structures of residences, and industries to power generation plants. Presently, the United States, China, India, and Middle Eastern countries are on the frontline of deploying bifacial solar farms as they have more space and high irradiance value. For instance, the Chinese solar manufacturers including Super League such as LONGi and JA Solar have ramped up their production in communicating bifacial modules to the current market demand.

Adoption Patterns Across Key Regions:

The adoption of bifacial solar panels is also a regional experience with some sample areas influenced by factors such as the intensity of solar radiation, changes in policies, and market forces. Currently, the Asia-Pacific region is at the forefront of the bifacial solar market taking the biggest slice of the market. China, India, Japan, and South Korea are going all out in its push to achieve its renewable energy ambitions and bifacial technology is already an integral part of the solar power initiatives.

China takes the lead in the production of renewable energy due to the large manufacturing industry and better policy support on renewable energy. The Chinese government has set its goal to reach carbon neutrality by the end of 2060 and due to this initiative, there was an amazing growth of the solar resources which makes bifacial technology a crucial factor for the accomplishment of these milestones. In India where the availability of land is scarce, bifacial panels are preferred most because they can produce more energy per unit area.

In North America, there is growing adoption of bifacial solar technology most especially in the United States market. Due to the tariff exemption, the bifacial modules have been widely adopted for large solar farms by utilities and developers. Since the U. S government has adopted solar energy as part of its clean energy plan, interest in bifacial systems is set to soar. Moreover, the combination of the latest technology bifacial panels and the skyrocketing prices for the land in some regions also contributed to the attractiveness of the technology that allows to generate more electricity per given area of land.

Europe is also a significant market for bifacial technology, especially Germany, Spain, and the Netherlands since the countries involved are eager to achieve their climate objectives. Bifacial panels are increasingly being incorporated into utility-scale solar projects in these countries to increase the deployment of renewable energy power generation sources and decrease carbon footprint.

Factors Influencing the Cost of Bifacial Solar Panels:

Material Costs: The main materials for the bifacial solar panels include transparent back sheets or a double-glass system because they enable the light to hit the back side of the panel. These materials make the overall production cost higher than that of the traditional mono-facial panels but the difference in the costs is coming down as a result of technology and large-scale production.

Installation Costs: Bifacial solar panels require more complex installation processes than mono-facial panels owing to the firm requirement of the tilt angles and the elevation of the panel to ensure that the amount of light gets to the reverse side of the panel. These additional installation requirements can add to labor expenses and the costs of mounting systems.

Land Use Efficiency: Bifacial solar panels offer the most benefits in cases where the cost of the land is high or where there is limited space. Bifacial technology creates more power output from the same space hence limiting space use for solar projects especially where the is a problem with the availability of space. This efficiency plays a critical role in offsetting the increment in costs associated with the bifacial systems installations.

Balance of System (BoS) Costs: The BoS parts such as inverters, cables, and tracking systems should also be vital for the improvement of bifacial solar applications. Some trackers can even improve the energy gain of bifacial modules by optimizing the tilt of the modules to receive the maximal amount of solar irradiation. However, these systems increase the cost of a bifacial solar project making the individual components more costly, but on the other hand, they enhance the energy yield resulting in a better economic return for the project.

Click here to view the Report Description & TOC : https://univdatos.com/get-a-free-sample-form-php/?product_id=65512&utm_source=LinkSJ&utm_medium=Snehal&utm_campaign=Snehal&utm_id=snehal

Conclusion

The bifacial solar market is gradually shifting upward in the global market, driven by energy density needs and reasonable land usage in solar power plants. As governments and industries around the world consider renewable energy as a tool to mitigate the impact of climate change, bifacial technology will be useful when producing solar energy in the future. While the cost of bifacial panels could still be higher than the mono-facial panels, when combined with benefits such as the potential for higher energy yields, reduced requirement of space, and advances in technology, bifacial solar panels have become an ideal solution for utility and commercial applications all over the world.

 

 

 


snehal Jagtap

11 Blog posts

Comments