As the world continues to transition to renewable energy sources, the importance of efficient solar systems cannot be overstated. The National Photovoltaic and Energy Storage Demonstration Experimental Platform (Daqing Base) has been at the forefront of this change, demonstrating cutting-edge technologies and methods for solar power generation. The platform’s 2024 annual report highlights significant progress in photovoltaic tracking systems, particularly dual-axis tracking brackets, which have demonstrated considerable advantages in power generation.
Newly released national data emphasises the effectiveness of these trackers, demonstrating that they outperform traditional fixed solar panels in all respects. One of the most striking findings is that dual-axis trackers boast the highest power generation rate. Unlike fixed systems, which can only capture sunlight from a single angle, dual-axis trackers can adjust their position throughout the day to follow the sun’s path. This ability enables them to maximise sunlight utilisation, thereby increasing energy output.
Additionally, the report reveals that tracking brackets can generate electricity more efficiently during periods of peak electricity prices. This is particularly important in today’s energy market, where electricity demand often peaks at certain times, causing prices to rise. By optimising energy production during these critical periods, tracking systems can improve the economic viability of solar energy and promote grid stability. This dual advantage makes them a popular choice for both energy producers and consumers.
The benefits of trackers extend beyond power generation. Results from the Daqing site show that these systems can significantly reduce the levelised cost of electricity (LCOE) of solar projects. By increasing power generation without increasing costs, trackers can make solar energy more competitive with traditional fossil fuels. This is crucial as countries strive to achieve their renewable energy targets and reduce their greenhouse gas emissions.
The report also highlights technological advances that are making these tracking systems more reliable and easier to maintain. Innovations in materials and design have resulted in more durable structures that can withstand adverse weather conditions, ensuring stable long-term performance. Consequently, the long-term advantages of investing in dual-axis tracking systems are becoming increasingly apparent to energy industry stakeholders.
In addition to the economic and environmental advantages, implementing tracking brackets also aligns with the global trend of pursuing smarter energy solutions. As energy storage technology develops further, integrating tracking systems with energy storage solutions will improve the efficiency of solar power generation even more. This synergy enables excess energy generated during periods of peak sunshine to be stored and used during times of high demand or insufficient sunshine, thereby creating a more resilient energy infrastructure.
Overall, the latest nationwide data released by the National Photovoltaic and Energy Storage Demonstration Experimental Platform (Daqing Base) confirms that trackers, particularly dual-axis systems, offer significant advantages in solar power generation. These systems are expected to play a key role in the future of renewable energy thanks to their ability to maximise power generation, reduce costs and adapt to market needs. As we transition to a more sustainable energy landscape, the insights gained from the Daqing Base will be invaluable to policymakers, investors, and energy producers. The transition to a greener future is not just a possibility — it is becoming a reality, driven by innovative technologies and strategic investments in solar energy.
Post time: May-23-2025