How can Solar SAI panels leverage Mokunping's single-axis tracking system to achieve a leap in light capture efficiency?
Publish Time: 2025-11-06
In today's global energy transition driven by "dual carbon" goals, photovoltaic (PV) power generation has transitioned from a supplementary energy source to a primary power source. However, the sun's east-west trajectory means that fixed PV arrays cannot be vertically aligned with the light source all day long, resulting in a significant loss of potential energy due to angular deviations. How can PV panels follow the sun like sunflowers? One answer lies in the single-axis tracking system launched by Mokunping, designed with the "Solar SAI" concept. This innovative product not only redefines the intelligence and economy of PV mounting systems but also demonstrates remarkable engineering wisdom in improving power generation efficiency, reducing the cost per kilowatt-hour, and adapting to complex terrain.
The Mokunping single-axis tracking system is called "Solar SAI" because of its lightweight and streamlined structural form and highly efficient dynamic light-tracking characteristics. Unlike traditional bulky fixed supports, this system utilizes high-strength aluminum alloy and an optimized mechanical structure, significantly reducing its weight while ensuring wind and earthquake resistance. Shaped like an unfolded sail, it moves with the sunlight. Its core lies in a precise single-axis drive and control system—the support slowly rotates around a single east-west or north-south axis, ensuring the photovoltaic modules always face the sun at the optimal tilt angle, significantly extending the average daily effective sunshine duration. Compared to fixed installations, annual power generation can be increased by 15% to 30%, with even more pronounced gains in high-latitude regions or areas with abundant morning and evening sunlight.
This efficiency improvement does not come at the cost of high cost. Mokunping's products were designed from the outset with a focus on "high-performance intelligent tracking": employing low-power motors and self-developed control algorithms, it requires only minimal power to complete daytime tracking, and can even be powered by the photovoltaic panels themselves, achieving energy self-sufficiency; the modular structure supports rapid assembly, significantly shortening the construction cycle and reducing labor and hoisting costs; standardized interfaces are compatible with mainstream module sizes, facilitating large-scale deployment and subsequent maintenance. More importantly, its intelligent control system can connect to a cloud platform to monitor the support angle, operating status, and power generation data in real time, and supports remote fault diagnosis and firmware upgrades, truly achieving "unmanned operation and intelligent maintenance."
In terms of application scenarios, the Mokunping single-axis tracking support exhibits extremely strong environmental adaptability. Whether in flat deserts, undulating hills, saline-alkali tidal flats, or coastal high-humidity areas, its adjustable foundation design and anti-corrosion treatment can meet the challenges. Some models also have a "high wind protection mode"—when the wind speed exceeds a threshold, the support automatically lays flat to reduce wind resistance and ensure structural safety under extreme weather conditions. This reliability makes it suitable not only for large-scale ground power plants but also increasingly for integrated projects such as agricultural-solar hybrid and fishery-solar hybrid projects, maximizing energy output on limited land.
Its sustainability value is particularly noteworthy. Higher power generation efficiency means more clean electricity is generated per unit area of land, reducing the occupation of ecological space; extended equipment lifespan and the use of recyclable materials further reduce the carbon footprint throughout the entire life cycle. In the current photovoltaic industry shifting from "competition for installed capacity" to "competition for power generation efficiency," Mokunping's single-axis tracking system offers a technological path that balances economic efficiency and environmental friendliness.
Ultimately, "solar sail" is not only a poetic metaphor for the form of photovoltaic panels, but also a revolution in energy harvesting. It empowers static power generation units with the ability to "sense and follow light," capturing every ray of convertible energy with millimeter-level precision rotation between sunrise and sunset. As these "sails" slowly turn towards the rising sun in the wilderness, they carry not only the pulse of electricity, but also humanity's respect for and intelligent utilization of the laws of nature. Mokunping's single-axis tracking system, with its solid engineering capabilities, is helping these "sails of light" sail towards a more efficient, intelligent, and greener energy future.
