Agrivoltaics
A solution that enhances land use efficiency and supports environmental protection. By integrating solar panels with agriculture, it promotes sustainability and maximizes renewable energy benefits for farms.
What is Agrivoltaics?
Agrivoltaics represents an innovative development model that seamlessly combines agricultural production with solar power generation. By installing solar panels on farmland, it enables multifunctional land use, where crops and energy production coexist. This dual-purpose approach not only maximizes land use efficiency but also fosters sustainable practices in agriculture and renewable energy. By promoting clean energy generation alongside traditional farming, agrivoltaics contributes to reducing carbon footprints, increasing energy independence, and supporting rural economic growth. This synergy between agriculture and solar energy highlights its potential to drive progress in both sectors while addressing environmental and energy challenges.
Solar panels not only provide an alternative energy source but also offer shading and temperature regulation for fields, while supplying power for farming activities.
By building distributed solar farm projects, cooperatives can power farming equipment and sell excess energy back to the grid, generating additional revenue.
Deploying solar panels for agriculture on farmland, greenhouses, or storage facilities improves cost efficiency and enhances market competitiveness.
Investing in agrovoltaic systems helps local farmers and agricultural businesses reduce energy costs while promoting sustainable energy development.
Deploying large-scale solar panel farms across extensive farmland, pastures, or other agricultural facilities to improve energy self-sufficiency and boost economic benefits.
Utilizing solar power for agriculture to power smart devices, enabling precision irrigation, automated fertilization, and environmental monitoring, driving the automation and modernization of agricultural production.
Achieving long-term stable economic returns through renewable energy farming while serving as a green demonstration project to promote regional sustainable development.
Agrivoltaic Power Stations
Agrivoltaic power stations offer an innovative model that integrates solar power generation with agricultural production. By installing solar panels above farmland, pastures, or ponds, this system allows for the simultaneous generation of solar energy and continuation of agricultural activities on the same land. This dual-purpose approach enhances land use efficiency while meeting both agricultural and energy production needs. By promoting renewable energy alongside traditional farming, agrivoltaic systems contribute to sustainable development, addressing environmental challenges and supporting rural economies.
Bifacial Power Generation and Transparency
Bifacial solar technology captures energy from both direct and reflected light, while the transparent design supports crop growth, creating a perfect harmony between agriculture and energy production.
Ammonia and Salt Resistance
These panels are highly resistant to ammonia and salt corrosion, making them ideal for agricultural settings and coastal regions, ensuring reliable performance in harsh environments.
Weather Resistance
Engineered to endure extreme weather, the panels offer reduced maintenance requirements and ensure long-lasting durability and stability.
Eco-Friendly and Efficient
Crafted from recyclable materials, the panels provide high-efficiency power generation while adhering to environmental standards, minimizing their ecological footprint.
Low Cost
The large-panel design maximizes coverage, making it ideal for large-scale solar farms, effectively lowering power generation costs and enhancing return on investment.
N-TOPCon Solar Module Glass-Glass Silver Frame 560-580W MONO Half Cut PV Module 182mm 144 Cells
Exclusive Selling Points:
High Conversion Efficiency
With a theoretical conversion efficiency of up to 28.7%, it approaches the theoretical limit of crystalline silicon cells, significantly outperforming traditional PERC technology panels.
High Bifacial Ratio
The bifacial rate exceeds 85%, offering a notable improvement over PERC technology. This means that TOPCon modules can more effectively capture and utilize light, generating more electricity.
Excellent Low-Light Performance
TOPCon cells maintain high power output even on cloudy days or at dusk.
Low Hotspot Effect
Even under long-term outdoor operation, hotspots are less likely to occur. This feature reduces maintenance costs and extends the lifespan of the solar panels.
HJT 675W-710W Dual-Glass Silver Frame
Exclusive Selling Points:
High Power Output
Utilizes conductive ITO material to prevent surface charging on cells, eliminating LID and LeTID effects. The annual power degradation is only 0.24%.
No PID Effect
Featuring a TCO film coating, it ensures excellent reliability and long-term performance stability, making it particularly suitable for large-scale solar power plants.
Exceptional Flexibility
The panel offers great flexibility, making it highly resistant to impact and environmental changes.
No-Cutting Cell Technology
The no-cut cell process eliminates the risk of microcracks, significantly improving performance reliability.
How Agrivoltaics Can Benefit You
Agrivoltaics offers a transformative solution that not only cuts energy costs but also generates additional revenue by selling surplus electricity, achieving energy independence and financial benefits. By integrating solar panels with agricultural land such as farmland, pastures, or other agricultural spaces, this dual-use model maximizes land use efficiency without interrupting farming operations. It enables simultaneous energy production and crop cultivation, unlocking the full potential of available resources.
Furthermore, agrivoltaics aligns with global sustainability goals by significantly reducing carbon emissions and enhancing your organization’s environmental reputation. This proactive approach helps meet environmental responsibilities while opening doors to new opportunities within the expanding green economy. Businesses adopting agrivoltaics gain greater market recognition and social support, establishing themselves as leaders in sustainable innovation.
Our Project
References
Global Sales Network in 60+ Countries
21 Global Warehouses
2GW Annual Production Capacity
912 kW
220 kW
Our Certifications
We are proud to hold multiple internationally recognized certifications, including TÜV, CE, and ROHS, ensuring that our products meet leading industry standards for quality, safety, and environmental protection worldwide. Each certification serves as strong evidence of the rigorous testing and high reliability of our products. Whether used in agrivoltaic power stations, commercial and industrial energy projects, or other renewable energy initiatives, our products consistently deliver exceptional performance and long-term stability across various environmental conditions.
TÜV Certification
Ensures that our products meet international safety and quality standards, especially in the solar industry, guaranteeing high performance and durability.
CE Certification
Demonstrates that our products comply with safety, health, and environmental protection requirements for the EU market, providing global compliance assurance for our customers.
ROHS Certification
Ensures our products meet environmental requirements by strictly limiting the use of hazardous substances, supporting sustainable development.
FAQ
Agrivoltaics operates by placing solar panels on agricultural land to harness sunlight for electricity generation while simultaneously improving the crop growth environment. These panels power farming equipment, provide shading, and help regulate temperature and humidity, delivering dual benefits by supporting both energy production and agricultural productivity.
Agrivoltaics employs a “dual-use” approach, enabling agricultural production and solar energy generation to coexist on the same land. Solar panels are installed above farmland, pastures, or water bodies, preserving ground resources while offering shade for crops, reducing water evaporation, and producing clean, renewable energy simultaneously.
Well-designed and installed agrivoltaic systems can effectively regulate the light crops receive. For shade-tolerant crops, the panels partially block sunlight, lowering temperatures and reducing water evaporation to enhance growing conditions. Moreover, the panels provide protection from extreme weather events like intense sunlight, storms, or hail, ensuring greater stability in agricultural production.
Agrivoltaic systems require minimal upkeep, but routine inspections and cleaning are essential for maintaining optimal power generation. Key tasks include cleaning the panel surfaces to remove dust and debris and ensuring all wiring and equipment are functioning correctly.
Agrivoltaics