Wave energy potential in Canada

Explore the vast wave energy potential in Canada, with an extensive 202,080-kilometer coastline. Despite 13% of the population residing along the coast, the nation boasts an average wave energy density of 22.5 kilowatts per meter. The theoretical potential stands at an impressive 39,830 Terawatt hours annually, surpassing the total electricity consumption in Canada by approximately 76 times (522.2 Terawatt hours in 2016). Canada emerges as a promising frontier for harnessing wave energy, offering substantial opportunities for sustainable power

Total coastline

202,080 km

Coastal population %

13%

Average wave energy density

22.5 KW/m

Annual wave energy theoretical potential

39,830 TWh/y

Total electricity consumption

522.2 TWh/y

Wave Energy VS. Gross electricity production

75 times

Total coastline

202,080 km

Coastal population %

13%

Average wave energy density

22.5 KW/m

Annual wave energy theoretical potential

39,830 TWh/y

Total electricity consumption

522.2 TWh/y

Wave Energy VS. Gross electricity production

75 times

Integrated Clean Energy Marvel

NoviOcean’s 1 MW hybrid solution seamlessly combines wave, wind, and solar energy in one device, creating a powerful and efficient clean energy source. It sets new standards for integration and performance.

Optimized Efficiency, Minimal Cost

Experience unparalleled efficiency with NoviOcean, producing twice the energy with half the weight compared to alternative solutions. This translates to not just performance but also cost-effectiveness in the realm of clean energy.

Reliable 24/7 Power Generation

NoviOcean ensures a continuous and uninterrupted power supply, generating electricity 24 hours a day, 365 days a year. Its reliability makes it a standout solution for meeting energy demands consistently.

Sturdy and Storm-Resilient

Designed to withstand the harshest conditions, NoviOcean boasts superior durability against storms and challenging sea conditions. Its robust build ensures reliable performance even in the most demanding environments.