Anti-Glare Module Solution
Microstructure: Regular Pyramid Pattern
with Rougher Surface
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Jinko Solar
Anti-Glare & Low-Reflection Modules for Mega-Transportation
Transforming Blinding Glare into Green Energy
Jinko Solar Releases「Mega-Transportation Anti-Glare Low-Reflection Module」
Enabling Mutual Enhancement of PV and Safety in Mega-Transportation Scenarios
Why Must Mega-Transportation PV Installations Prevent Glare?
0.3s of Glare distraction = 10m Fatal Blind Zone
Anti-Glare is Not Optional—It's the Entry Threshold and Safety Baseline for Mega-Transportation PV application
Zero Tolerance for Safety
Airways, Highways, Railways, and other transport scenarios demand extremely high visual safety standards. Glare can cause instant blindness in pilots/drivers, leading to irreversible accidents and economic losses.
Zero-Carbon Ambition
"Carbon Neural" Goals Force Mega-Transportation to Generate Its Own Power"Unable to Install PV" = Major Carbon Emitter
The transportation sector faces immense carbon reduction pressure. PV is key to zero-carbon transition, but traditional modules cannot be deployed at scale due to glare issues.
Regulatory Mandates
Glare Incident = Accident + Massive Compensation
FAA-SGHATZero Red-Light Zone (Minute-Level, Year-Round)
China Technical Requirements for Apron Floodlighting at Civil Airports: Apron Glare Rating GR ≤ 50
Essential Weapon for Zero-Carbon Upgrade in Mega-Transportation
Mirror Reflection Terminator: Converting Blinding Glare into Green Energy
Zero Reflection Accidents Across All Mega-Transportation Scenarios
Airport PV: A Must for Zero-Carbon Aviation Era
Policy-Driven
Zero-Carbon Airport Definition
CAAC's "Green Airport Plan" (2025)
Scope 1 & 2 Carbon Emissions ≤0
Abundant Spatial Resources
Large-Scale Installable Areas
Airside: Grass Areas, Reservoirs, Runway Localizers, Fences, Noise Barriers
Landside: Parking Garages, Under Viaducts, Tunnel Roofs
Terminal Zone: Cargo Roofs, Hangars, GSE Charging Shelters
Energy Consumption Beast
Massive Energy Consumption
High Energy Demand for Aircraft Ground Power
Annual Airport Consumption: >100 Million kWh
Strict Aviation Safety Rules Far Exceeding Industry Standards
Zero-Tolerance Aviation Safety Standards
Anti-Glare Capability: The "Deal-Breaker" for Airport PV Project Selection
High Bifaciality Ratio: Key to Maintaining High Power at Large Tilt Angles
Tiger Neo 3.0: Bifaciality 85±5%
Annual Energy Yield Gain:3-5%
*Based on test results from JinkoSolar Laboratories, compared with competing products of low bifaciality.
Microstructure Scatters Glare for Ultimate Anti-Glare Performance
Glass Surface: From Smooth Mirror to Regular Pyramid Pattern
Anti-Glare Module Solution
Microstructure: Regular Pyramid Pattern
with Rougher Surface
Conventional Module Solution
Microstructure: Disordered Pattern
with Smoother Surface
Anti-Glare Mechanism Explained
Glare Impacts Environmental Safety in Specific Scenarios
Principle: Reduce reflected light brightness by scattering light direction, lowering intensity in specific angles.
30-Year Power Warranty: From Damp Heat to Hail Tests
Damp Heat Test Degradation: 2.12%
Thermal Cycling + Humidity Freeze Degradation: 0.98%
Far Below Industry Average, Ensuring 30-Year Worry-Free Performance
*Comprehensive Reliability Tests
Bridging the Last Mile of Zero-Carbon Transportation
Starting with Taiyuan Wusu: Pioneering China's First Zero-Carbon Aviation Hub
Jinko Solar Eliminates the Final Glare Barrier in Mega-Transportation's Zero-Carbon Transition
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