Innovative Solar Project Elevates Power Generation Efficiency
Revolutionizing Power Generation with Solar Energy
In a landmark achievement within the renewable energy sector, Semir Apparel Co., Ltd. has successfully integrated the first Hi-MO X10 rooftop photovoltaic (PV) power station in its facility. This exciting development marks a major milestone as it is not only the first of its kind in its region but also part of a groundbreaking initiative to harness solar power effectively and sustainably.
Driving Efficiency with Advanced Technology
The rooftop solar installation, situated atop two expansive office buildings, covers an area equivalent to nearly three standard football fields. Utilizing cutting-edge LONGi Hi-MO X10 modules, the project boasts an impressive total capacity of 2.11 megawatts (MW). With an annual power generation capacity estimated at around 2.5 million kilowatt-hours (kWh), the station aims to utilize an optimal model of energy usage.
This self-sustaining power generation model allows the facility to consume the electricity it produces while feeding the surplus back into the grid. Remarkably, the efficiency of this system is enhanced by an impressive self-consumption ratio of 85%. This ensures that green electricity is continuously supplied for various operational needs, such as the headquarters and essential logistics.
Unleashing the Potential of Solar Modules
LONGi introduced the Hi-MO X10 modules, characterized by innovative HPBC 2.0 cell technology that positions them at the forefront of solar technology. These modules are designed not only for efficiency but also for enhanced aesthetics and reliability. Capable of reaching a mass-production power output of 670W, they surpass typical TOPCon modules by 30W, while achieving an efficiency rating of up to 24.8%. This combination optimizes power generation potential, maximizing revenue for users.
In addition to high output, these modules incorporate advanced bypass diode technology to mitigate issues brought on by shading, effectively minimizing power loss and thermal hazards. Consequently, they experience reduced temperatures by more than 28% when compared to traditional solar cells, ensuring a safer and more reliable functioning.
Project Performance Data and Insights
Initial project performance data from February reveals a promising trajectory. It indicates that from February 13 to February 28, the solar installation produced a total of 134,500 kWh of energy, averaging 4,804 kWh per day. Impressively, the actual daily generation reached around 5,190 kWh, surpassing initial projections by 8%. This not only highlights the efficiency of the Hi-MO X10 modules but also sets a bench mark for future solar installations.
Setting New Standards in Renewable Energy
Notably, the completion of this rooftop PV power station serves as a beacon for sustainable practices not just within Semir Apparel but across the industry. It illustrates the tangible economic and environmental benefits that can be reaped through smart investments in green technology. Such advancements set a compelling precedent for other enterprises in the clothing and textile sector, encouraging them to adopt similar initiatives.
As LONGi Solar looks to the future, it aims to continue delivering innovative products and high-quality solutions to support more organizations in their quest for sustainability. The success of this project has positioned the company to expand its influence within the industry and contribute towards a greener, more sustainable future.
Frequently Asked Questions
What is the capacity of the Hi-MO X10 solar project?
The solar project has a total installed capacity of 2.11 megawatts (MW).
How much power does the project generate annually?
The project is expected to generate approximately 2.5 million kilowatt-hours (kWh) annually.
What technology is used in the solar modules?
The modules utilize HPBC 2.0 cell technology for optimal efficiency and performance.
What are the benefits of the self-consumption model?
This model allows the facility to use its generated electricity efficiently while feeding surplus power back to the grid.
How much higher was the actual power generation compared to expectations?
The actual average daily power generation was about 8% higher than expected.
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