“WAVES TRANSMIT ENERGY, NOT WATER”

NATIONAL OCEANIC AND ATMOSPHERIC ADMINISTRATION 

For hundreds of years, engineers, inventors, scientists and tinkerers have been trying to convert the abundant, consistent power of ocean waves into electricity. Millions have been spent, leaving behind a trail of abandoned projects, but also a growing body of knowledge and insight that has been used to advance the technology. Companies on every continent have pursued designs to capture the waves’ energy, turn it into electricity, and last for decades in the turbulent, salty ocean. Generation after generation kept trying…. Why? Because wave energy is the most abundant, and one of the most reliable, powerful forces on Earth. Being able to make electricity from it could change the world. At last, it seems that we are a stone’s throw from being able to power cities and islands with clean, renewable, reliable ocean wave power.

Ocean waves are created when the wind blows across the top layer of the water. Wind pushes one part of the water down, which pushes another part of the water up. The longer and harder the wind blows across the water, the faster and larger the waves become. In fact, on large coasts like those of Western Europe, Africa, and the United States, the wind races over hundreds of miles, building the waves long before they arrive near the shore. Like light waves and sound waves, what’s being transmitted is energy; but in the ocean, it is embodied in heavy, dense water, so it packs a lot of power. That’s what can be converted into electricity.

But why do we need wave energy when we already have solar and wind energy? Here are 10 reasons why wave power is a game changer in renewable energy.

1.     Wave energy is predictable

Grid operators have shifted less than 13% of the power they generate from fossil fuels to wind and solar because they can’t always predict how much power they will be able to pull from those resources. The wind dies down, a cloud blocks the sun, or the sun sets, meaning the power supply is cut off. But water is 800 times denser than air; it takes this heavy, dense medium a while to get going, and to slow after the wind has died down. Wave power may begin to build hundreds of miles from shore, and once it gets going it sustains for much longer. So grid operators can know how much wave power the ocean will give them up to two weeks before they need to use it. This steady wave power enables grid operators to confidently budget more renewable energy in their electrical supply.

2.     Wave energy is powerful

It has been estimated that the power of the ocean’s waves would provide more than enough electricity for the whole world. Realistically, given inland populations, competition for coastal water real estate, and other challenges, wave energy might not take over energy production. But the U.S. Energy Agency says that, in theory, wave power could supply more than 60% of electricity consumed in the states.

A cubic meter of air weighs about 1kg; a cubic meter of water weighs about 1,000kg or about as much as a baby humpback whale. When a wave of energy is powerful enough to move something that dense, it can create a lot of force.

3.     Waves are abundant

Seventy percent of the planet is covered by the ocean and its waves. Every continent and island is surrounded. In places like the west coasts of the United States, Europe, and Africa, the wind races across the ocean for miles and miles without being stopped, so it can generate huge waves in those places. But the real boon for the electrical power grid isn’t the big waves that appear sometimes; it’s the steady, consistent power of the moderate waves, rolling toward shores around the world, day and night, all year long.

4.     Wave energy is reliable

Waves never stop. Even when the wind dies down, the waves continue because it takes them so long to build and subside. Also, the movement of the ocean is impacted by more than waves. The moon’s gravity constantly pulls on the oceans; and changing temperatures and salinity cause cold water to fall and warm water to rise, creating currents. Because the ocean never stops moving it never has to be “started up” from a standstill.

5.     Waves are close to where people live

A challenge with wind and solar can be getting the power from where it is generated—in a plant far from a population center—to where it is used. Installing transmission lines is expensive and can be logistically difficult. And the farther the power has to travel, the more of it leaks along the route, reducing efficiency. Roughly 10 percent of the world’s population lives along coastlines with 40 percent living within 100km of a coastline. This includes huge cities and small islands that pay exorbitant amounts to import diesel to power their lives. So wave can provide a renewable that’s generated close to where it is used. 

6.     Wave power produces no emissions

Emissions created in the production and deployment of the technology vary by technology, but once in the ocean, wave energy creates no CO2 emissions. Electricity generation created the most CO2 emissions by far in 2022. Wave energy that creates even 10% of global power, displacing fossil fuels, could reduce CO2 emissions by about 1.5 gigatons. This means cleaner air for creatures on both land and sea, and a better chance to keep the global temperature rise below 1.5 degrees Celsius.

7.     Wave power incurs no fuel costs

The cost of fossil fuels has a long history of creating global havoc. And for places that must import all their fuel, dealing with fluctuating exchange rates to purchase this substance that’s vital to their survival can result in crippling debt. The cost of building a fossil fuel generation plant is just the beginning. What follows is decades of payments of uncertain costs to buy the fuel to make those power plants work. But waves are free. Once the plant is built and paid for, the fuel comes from nature. Just as with wind and solar, once the technologies are deployed, the prices will continue to fall. As more and more wave parks are developed, the manufacture and installation of those parks will become exponentially more efficient, and prices will drop as they have with solar and wind. Soon, powering a community with wave energy could be among the most affordable options.

8.     Wave energy can contribute to energy security

Many countries and communities are heavily dependent on polluting, expensive, imported fossil fuels. That puts them at the mercy of companies and countries that supply diesel, coal, and Liquid Natural Gas (LNG). Most islands, for example, tend to pay exorbitant electrical costs, far higher than on the mainland. These countries and communities know that extreme weather or geopolitics can create an existential threat by interrupting the delivery of the fuel they rely on for their homes, hospitals, and businesses. But many of these places have ocean waves. Once a wave energy park is built, they can convert those ocean waves into electricity and feel secure knowing they have a fuel source that can’t be taken away and comes free from nature. Wave power plants can provide energy security that can protect people’s lives and livelihoods.

9.     Wave power can be used for desalination

As climate change progresses, global leaders worry that some places may lose access to drinkable water. Desalinating water, taking the salt out of ocean water so that it can be used for drinking, can be very energy intensive, which can accelerate climate change. Wave energy can be used in coastal areas to power desalination plants with CO2-free fuel.  

10.  Wave energy might help prevent coastal erosion

Some research has shown that because wave energy parks absorb some of the energy from waves rolling into shore, they have the potential to reduce coastal erosion and protect shorelines. This is a key environmental issue for coastal areas facing severe weather, rising sea levels, and other risks of climate change.

Why Seabased Wave Energy?  

Seabased wave energy provides all the benefits mentioned above and more. It uses point absorber technology and a linear generator to capture the energy passing through the waves.

This is how it works:

Our linear generators rest on the sea floor, held steady by a concrete base and protected from the more turbulent waves on the surface. At roughly eight meters tall, these cylindrical steel generators encase a heavy translator that is connected by a cable to a buoy that sits on the surface. When powerful, dense waves raise and lower the buoy, they lift and lower the cable which lifts and lowers the translator, creating electricity that is channeled into a marine substation where it is converted to a stream of power that can be added directly to the grid.

1.     Seabased wave energy is gentle on the ocean ecosystem

Seabased’s system was designed to provide utility-scale power without harming the ocean or the creatures that live in it. There are no blades. There are no oils to leak. The level of electromagnetic signal coming from the technology is the same as that of standard subsea cables that carry internet signals around the world. These have been shown not to harm sea creatures. In fact, in some places, sea creatures move into the wave energy parks, which are protected from boats, so the wave park becomes an artificial reef and breeding ground.

When the park’s useful life is over, all components can be removed, leaving nothing behind.

2.     Seabased wave energy parks are designed to be environmentally friendly

In addition to being gentle on the ocean ecosystem, our devices are designed to keep our CO2 footprint low.

• Most of the materials we use are either recycled—as with recycled steel—and/or recyclable as with concrete.

• We use ferrite magnets that don’t contain rare earth elements.

• The buoys and bases can be made on site, reducing shipping.

• The WECS are modular and components are small enough to be shipped on a regular cargo vessel, not requiring a special trip which consumes more fuel.

• Most components can be installed with smaller vessels that require less fuel.

3.     Seabased wave energy parks are designed to be affordable

Seabased’s team knows that a key to effecting the renewable energy transition is making clean energy economically competitive with fossil fuels. Consequently, we’ve designed our system for value all along the supply chain to provide seamless, wave-to-grid power, without add-on costs.

• Most of our parts are off-the-shelf, rather than custom-made, reducing costs.

• The park components are modular and small enough to be containerized as part of the cargo of a normal freighter rather than having to be specially transported.

• The installation can be done in a few days, with relatively small vessels that require less fuel.

• Wave parks can scale as needed from 2 megawatts to hundreds.

• The technology has a design life of at least 20 years in the ocean with minimal maintenance; but where maintenance or replacement is required, it should be easy to do with local boats.

4.     Seabased’s technology is almost invisible from the shore

Coastal areas often pride themselves on their sea views. In fact, sea views significantly contribute to real estate value for homes and resorts. So it’s important that a power technology doesn’t destroy those sea views. Seabased’s technology, which is generally about 2-8km from shore, is entirely underwater except for the buoys. So it creates a lot of power without blocking the view.

5.     Seabased’s design protects the technology

Most of the turbulence of the water is on the surface. The deeper you go, the calmer the water is. That’s why Seabased puts its technology on the sea floor where it is safe from storm waves and boats, so that a community’s investment and power generation system is protected. The only part that’s exposed to the waves is the buoy which is just recycled steel.

6.     Seabased is way ahead of the curve

Seabased has already tested its equipment at full scale under numerous conditions in seas from the Nordics to Ghana. We have optimized the technology to work in places with 1-3 meters waves, so that they can produce power 24/7, in normal conditions and don’t require an intense wave climate.

Seabased has been refining and testing its technology for nearly 20 years. It has also tested the technology’s impact on ocean ecosystems. And it has developed a project pipeline, working with governments around the world on permitting, collaboration with other stakeholders such as fishing communities, and development of economic models to iron out the complexities that come with installing a utility-scale power park.

We knew wave energy would one day take its place among the renewable solutions, but accelerating climate change and energy insecurity have made implementation of this solution urgent. Fortunately, Seabased is ready to meet the need and help usher this new, powerful, reliable source of electricity into the market.