They are reversible so they can capture the water's energy as the tide comes in, and again was the tide goes out.
The turbines in tidal power stations are reversible to optimize energy efficiency. This means they can generate power both when the tide is coming in (flood tide) and when it is going out (ebb tide). By enabling the turbines to rotate in both directions, tidal power stations can capture energy from the tidal flow in both directions, maximizing their overall electricity generation potential.
The largest tidal power station in the world is the Sihwa Lake Tidal Power Station. It is located in South Korea.
These projects are planned but costs must be only an estimate at present. British Columbia Tidal Energy Corp. plans to deploy at least three 1.2 MW turbines in the Campbell River or in the surrounding coastline of British Columbia by 2009.[21] Nova Scotia Power has selected OpenHydro's turbine for a tidal energy demonstration project in the Bay of Fundy, Nova Scotia, Canada
Tidal Turbines work when the tide goes in and out. The force from the movement of the water spins the turbines.
harnessing water flow to drive turbines and electric generators
The turbines in tidal power stations are reversible to optimize energy efficiency. This means they can generate power both when the tide is coming in (flood tide) and when it is going out (ebb tide). By enabling the turbines to rotate in both directions, tidal power stations can capture energy from the tidal flow in both directions, maximizing their overall electricity generation potential.
tidal energy is created by turbines that does make tidal power
Inputs of a power station is the air inside it produced. :) But seriously: The input to a power station is the source of energy use to make electricity. This can be water, oil, gas, coal, nuclear. In less conventional terms, wind turbines and tidal schemes are 'power stations'.
The largest tidal power station in the world is the Sihwa Lake Tidal Power Station. It is located in South Korea.
Tidal Energy can be conserved by using offshore turbines rather than underwater turbines.
These projects are planned but costs must be only an estimate at present. British Columbia Tidal Energy Corp. plans to deploy at least three 1.2 MW turbines in the Campbell River or in the surrounding coastline of British Columbia by 2009.[21] Nova Scotia Power has selected OpenHydro's turbine for a tidal energy demonstration project in the Bay of Fundy, Nova Scotia, Canada
Tidal Turbines work when the tide goes in and out. The force from the movement of the water spins the turbines.
The first tidal power station in the world was built on the River Rance, in France, in 1966.
harnessing water flow to drive turbines and electric generators
2 years
anyone who is using electricity. meaning stores, people, buildings, ect. afterall, tidal power is a source of electricity ran by spinning turbines underwater.
The first and largest tidal power station was the Rance tidal power plant built over a period of 6 years from 1960 to 1966 at La Rance, France. It has 240 MW installed capacity.There are plans for a bigger power station in South Korea. Known as the Sihwa Tidal Power Plant, the project would generate 260 MW from the constant flow of water in and out of a seaside bay. The project is expected to be completed by 2009.