Isigenere Isifloating Floating Solar System

Isifloating: High Quality and Durable Floating Solar System

Designed to be installed as part of floating solar projects over multiple water environments: hydropower plants, irrigation reservoirs, natural lakes, water treatment, quarry lakes, tailing dams, aquaculture farms and others. 

Main Environmental Benefits

• Increases ~10-15% photovoltaic power performance thanks to cooling effect
• Reduces water evaporation by ~80% as the system acts as a protective ceiling 
• Preserves land for agriculture, livestock or forestry
• Produces renewable energy closer to power consumption
• Improves water removing algae and reduces infrastructure maintenance costs
• Reduces visual impact

Photovoltaic Panel (Not Included)

Configuration compatible and adaptable to most panels in the market

Main Float

Manufactured by injection molding 

Virgin HDPE + UV Stabilized + antioxidant

100% recyclable

Tilt: 5°

Dimensions: 1000x1300x400 mm

Buoyancy: 90kg/m^2

Secondary Float

Maintenance walkways, wave breaker, inverters/combiners and cable support 

Virgin HDPE + UV Stabilizer + antioxidant 

100% recyclable, Non slipping Surface 

Tilt: 0°

Dimensions: 1238x574x214 mm

Buoyancy: 135kg/m^2

Quick Clip Fixings

ALUMINUM 6063T6

Universal - Fasteners AISI 306

Floats Connectors & Screws

PA6 + Fiber

Nuts

PA6

High Quality

• Patented bi-float design per PV panel. Manufactured using virgin HDPE (with UV and antioxidant additives and 100% recyclable)
• Injection manufacturing for maximum precision and therefore durability
• Minimum thickness > 2mm of the main float, guarantee of maximized strength and longevity
• Maximum manufacturing speed (1MWp of floats produced in less than 5 days)

Safety 

• Easy and secure walking access to any solar panels for cleaning and maintenance tasks
• State-of-the-art quality control and specifications
• Optimized stability and buoyancy resulting from the experience accumulated since 2009
• Optimized aerodynamic coefficient, by eliminating the “sail” effect at the rear of the panel and by the 5° inclination of the PV panels

Adaptability

• ACcompanies water level variations without displacement, even up to emptying
• Phased implementation is possible with increasing energy needs
• High power density for energy maximization
• Withstands strong winds (180km/h); wave heights of 1 m (more if anti-wave barriers used) and extreme temperatures (-20° to 60°C)

Cost Efficiency

• Logistics and storage optimized by the nestable and stackable design (1 MWp takes <8 - 40’ containers)
• Reduced assembly teams with no specialization required. Only basic tools and equipment are used
• Fast assembly speed (1MWp in less than 15 days with a team of 5 people)
• Cleaning with basic equipment and compatible with robotic cleaning