High-efficiency PV modu'±les installed on factory roofs convert solar e↓₩γnergy into renewable&β$ electricity, meeting a significant port&×ion of the enterprise'γ§;s power needs.
This system reduces o∑♠♠perating costs and dependence on traditionaσ☆♣'l energy sources while p∑"Ωroviding clean, green energy.
By integrating PV technεology with architectural design, thisβ☆♣¥ system achieves an $γelegant blend of aesthetics and functiona✘ ↔lity. It generates so¶>↔lar power to reduce building energy consumption §<and carbon emissionsφ§∏σ, offering considerable energy output and' supporting corporate sust ainability goals.
PV modules atop carports provide green energy fo→σr electric vehicle (EV) charging stations, facili∑✘♠tating the charging needs of EVs ✘γand promoting sustainable mobility solutions.&§σ♣₩nbsp;
This enhances infrastructure suppoδ™★'rt for new energy veh♣σ$$icles and encourages greener transportation pra✔∑ctices.
The project officially c÷♠₩ommenced in Nov 2022, completing desig₹Ωn, procurement, and construction within just two ≠☆★months. It successfully achiev☆®¶✔ed grid connection on Jan 16, 2023, showcasing e<₽xceptional project management and con∞¶ ↕struction efficiency.
The rapid grid connection enabled the enterδ &prise to enjoy the economic and •∞₩✔environmental benefits of€£≤ clean energy right before the Chinese New §↔÷Year.
Utilizing a 35kV high-voltage access system, the ↓ project efficiently delivers PV ¶↑∏↓power to the grid, ensuring stable and secure p÷α₽©ower supply.
This advanced system signif $<₩icantly improves energy efficiency and minimiz∑es transmission losses.
The project is designed to gen∑α↔•erate an average of 8.55 million kWh annua™₽÷ lly, with a total expected generation of 21 §σσ3.81 million kWh over 25 years, savin∞σλg 2,600 tons of standard coal and reducing₽← 7,100 tons of carbon dioxide emissions ≠∏annually, which will e®'¥∑ffectively promote the green transf'∑ormation of the enterp×'rise.
Integrating PV carports with chargiγ€¥≤ng stations not only>≤ minimizes the company’s carbon footprint but al≤ ∏"so supports new energy vehicle development, φ₹÷aligning with the company’s sustainabil✔∑→ity goals.
Operating on a self-g'∑₹eneration and self-consumption model, the ♠≈project reduces electricity costs f↑←or the enterprise while generating additi✔"Ωonal income from surplus power fed into th✘≤e grid. This ensures ♣↑™long-term economic returns. δ®";
Installing charging stations enhances facilΩ∏ity infrastructure, promσ↔oting green travel f ☆βor employees and visitors and reinforcing the com<δ'pany’s modern, eco-f•≥riendly image.
The project serves as a model for gre₩ ™φen energy application, contribu★₹♠ting positively to local economic green dev≈≤elopment.
By advancing photovol§★€♦taic technology, it ₽∏fosters the growth of new energy industries'∞ and provides a fresh impetus for sustain↕©able regional economic devel♦λopment.
