The amount of Watts a tidal energy gives is 200-300W
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The energy produced is related to the size of the power plant, not the amount of gas it uses. The question you really want answered is "How much gas does it take to produce a kilowatt of electricity?"
How much WHAT? It can't produce ANY brownies, but can produce energy storing molecules in plants The energy synthesis would vary depending on the size, and type of plant, it's overall health, the availability of CO2 and water, and the amount & intensity of the light it was exposed to.
Utility companies that use tidal energy would also use other ways of generating power, because tidal energy can only be collected when tides come in or out, that is, usually four times a day. Most utility companies would have access to the national grid and feed their tidal power into it. They would be able to draw on power from other sources when the tide was quiet.
because chloroplasts produce energy in the daylight and mitochondria produce energy day and night
turbines are placed underwater in areas which have high tidal movement. These turbines are designed to capture the energy produced by the tidal movement and is then transformed into electricity. The tide moves a huge amount of water twice each day, and harnessing it could provide a great deal of energy - around 20% of Britain's needs. Although the energy supply is reliable and plentiful, converting it into useful electrical power is not easy. There are eight main sites around Britain where tidal power stations could usefully be built, including the Severn, Dee, Solway and Humber estuaries. Only around 20 sites in the world have been identified as possible tidal power stations, because they need a large bay or estuary with a narrow outlet to the sea.
Every turbine gives 300-400 homes power.
It's difficult to say. A tidal wave, or a tsunami, has an amazing amount of power, but it is all over in a hour or two. Tidal mills can capture the tidal water twice a day and use it to generate clean electricity. This will continue for ever (or until the turbines need to be replaced).
Yes, even if you cannot see the moon, it is still having tidal effect AND the sun also creates a tidal effect, weaker than the moon, but still there.
A large propeller is placed at a point where the tidal current flows quickly in and out, every 12-13 hours in many parts of the world, except in a few places where there are one or even four high tides every day. As the water flows past the propeller it generates energy in a rotating shaft which is geared to drive electric generators.
The energy produced is related to the size of the power plant, not the amount of gas it uses. The question you really want answered is "How much gas does it take to produce a kilowatt of electricity?"
How much WHAT? It can't produce ANY brownies, but can produce energy storing molecules in plants The energy synthesis would vary depending on the size, and type of plant, it's overall health, the availability of CO2 and water, and the amount & intensity of the light it was exposed to.
They are both good. They both produce electricity without any carbon emissions, so they contribute nothing to the problem of global warming. They are both renewable, which means they don't cost anything to run, apart from day to day maintenance, and the power continues to come even after we use it. Both have disadvantages: solar needs the sun to shine, and tidal energy only happens a few times a day and only in suitable locations.
Currently H2 produces 82,986,98,009 squared energy bases per day in the entire world.I hope this information helps you-
Utility companies that use tidal energy would also use other ways of generating power, because tidal energy can only be collected when tides come in or out, that is, usually four times a day. Most utility companies would have access to the national grid and feed their tidal power into it. They would be able to draw on power from other sources when the tide was quiet.
because chloroplasts produce energy in the daylight and mitochondria produce energy day and night
Depends on the output of the reactor, but new PWR's are rated at about 1500 MW (megawatts), so in one day would produce 1500 x 24 Megawatthours = 36,000 MWh
No, because tidal energy needs a large bay that fills up with water at high tide, but it also needs a narrow opening to the sea, so that the outgoing water rushes through at a great speed. Because there are only two tides a day there are not many places round the world where it is economical to build a tidal power station.