Solar Waves over Carrier Canals

  • Cable-Stay Over Water

    Delivered in containers for easy transport, the Cable-Stay system installs quickly with a small crew. Built for water surfaces, it cuts evaporation by up to 25%, cools panels for better efficiency, and supports self-cleaning—delivering reliable, land-free solar power.

  • Cable Suspension System

    Our roller-based system glides solar arrays across anchored steel cables, enabling fast, stable deployment over canals. It ensures precise installation with minimal environmental impact—delivering efficient, reliable performance even in tough conditions.

  • Easy PV Maintenance

    Our system uses sliding recycled aluminum parts—no bolts or fixings—making PV replacement quick and simple. Integrated bridges provide easy access across arrays, reducing downtime and keeping your system running efficiently with minimal effort.

Download our 'Solar Waves over Carrier Canals' Brochure

Self-Cleaning & Rainwater Collection

Introducing the world’s first solar array with built-in self-cleaning and rainwater harvesting. Solar Waves uses rainwater collected in its ridged design, pumping it from the top to automatically clean panels—no manual effort required. This not only maintains peak performance but also reduces water waste and maintenance costs. By combining sustainability with smart automation, Solar Waves sets a new global standard in efficient, low-maintenance solar technology.

Solar Power Output Simulation

This tool makes our solar performance simulations accessible to the public — from policymakers to investors. It models how much energy a solar array can generate in any global location using real weather data and solar physics.

The model accounts for:

  • Panel orientation (e.g. south-facing or east-west-facing)

  • Local solar irradiance (sunlight availability)

  • Panel specifications (wattage, efficiency, area)

  • Cooling effects from water surfaces below the array

Our goal is to share the science behind Solar Waves: Solar installations that not only generate power but also reduce water evaporation in dry climates.

Use the map to choose a location, configure the system, and explore monthly and annual energy output.