Calwave Wave Carpet

500 000 grant under the name calwave from berkeley lab s clean energy.

Calwave wave carpet.

We offer client oriented project development project financing epc engineering procurement and construction services and long term operation and. Among those who could come out on top is the calwave team led by marcus lehmann a visiting student researcher at lawrence berkeley national laboratory who is working to take a unique wave carpet technology out of the test tank and into the open ocean. They generate hydraulic pressure that gets sent into a discharge pipe which brings the pressure onshore to convert it into electricity. The design was inspired by the ability of muddy seafloors to effectively absorb overpassing ocean wave within only a couple of wavelengths.

Researchers participating in calwave project came up with the idea of using a viscoelastic carpet of wave energy conversion cwec placed over a network of vertically oriented springs and generators on the coastal. Our design uses a synthetic seabed carpet that is connected to a grid of generators underneath that has the ability to extract wave energy the same way the muddy seafloor does. When the waves run over the carpet the carpet adopts the wave motion which in turn runs the pumps. Wave energy is the third largest renewable resource after wind and solar.

Our proprietary wave energy converter technology achieves high performance while surviving storms and extreme conditions. Calwave was founded in 2014 and is based on a wave carpet concept developed at the university of california berkeley cal berkeley. Calwave is developing a wave energy converter whose design is inspired by the ability of muddy seafloors to effectively absorb overpassing ocean waves. Calwave is bringing superior power generating technology to market with global reach.

Marcus lehman is the co founder and chief executive officer of calwave power technologies a berkeley calif based startup and one of the leaders in wave energy. It s built of corrosion resistant materials operates submerged and thus sheltered from storm conditions and sits far enough below the waterline to eliminate most surface collision danger. An undersea carpet could be used to efficiently capture the energy of ocean waves according to a team of engineers called calwave who are working with uc berkeley s theoretical and applied fluid dynamics laboratory to develop the wave energy harvesting system. Ocean waves are 20 60 times more energy dense predictable and consistent compared to other forms of renewable energy.

The capture of wave energy is still in early developmental stages but is seeing rapid growth. Is a turnkey renewable energy project development company with extensive experience in both commercial distributed generation and utility scale solar power systems. The carpet sits atop a series of double acting piston pumps.