Wave Energy Works


Earth is composed mainly of bodies of water—about 71 percent of the earth’s surface is water. Ninety-seven percent of that is found in the oceans. Because the earth’s surface is curved, the sun heats it unevenly. This causes winds to blow across the water and generate waves. The sun and moon also exert their gravitational pull on the earth, triggering wave-producing tides. It can be harnessed and generated into electricity.


The kinetic energy of the typical 4-foot, 10-second wave produces greater than 35,000 horsepower (26099.50 kW) of power for every mile of coastline. That’s enough power to light one 100-watt light bulb for 260,095 hours, or about 30.8 years.


The best locations for this-technology apparatus depend, in part, on the environmental and economic characteristics of the location. Environmental characteristics include incorporating wave-energy equipment into any port’s breakwaters, so that it generates electricity directly to the port. Economic characteristics include lowered costs, because less space is required to produce electricity than is required by wind-energy equipment. Having no need for access roads also contributes to lowering production costs.


It produce a net energy, after costs, equal to or better than wind, solar or small hydroelectric power plants. One reason is that waves can trek long distances without any major power loss, unlike wind. Waves have a kinetic energy about 1,000 times greater than wind, which means they generate the same amount of power capacity in a smaller space. It produce power around the clock, in contrast to wind, which produces power primarily in the mornings and evenings, and solar energy, which produces power only during daylight hours. This technology requires less space than wind farms, there’s no need for road construction and there are no moving parts to wear out–all cost-saving factors associated with wave energy.

Three methods are used to generate wave energy. With the first, a system of buoys rises and falls with the waves, causing an electric generator to produce electricity that is propelled along a power cable to shore. With the second, a water column apparatus uses waves to fill and empty the column, forcing the air inside to go up and down. This piston-like action rotates a turbine which produces electricity. The third method involves a tapped-channel arrangement which directs waves into a raised reservoir and generates hydroelectric power by allowing water to flow from the reservoir.


On the positive side, wave energy is renewable, produces no pollution and has no negative impact on the view. On the negative side, bottom-mounted buoy systems could impact an area’s plants and animals or produce enough noise to negatively affect marine migration. The cost of generating electricity could be affected by the size of the waves, the distance needed to carry electricity to consumers or the difficulties of the system’s maintenance. The presence of this technology could also impact fishing, shipping and recreational boating.