Nuclear plants don't store energy, except very briefly in the form of heat. In a pressurized water reactor, for example, the water in the primary coolant loop might make a complete circuit several times a minute. The primary loop is used to heat water in the secondary loop, and the secondary loop drives a steam turbine which converts the heat energy into electricity. This goes more or less directly onto the grid; there's not really any way to store it.
Nuclear energy appears as heat, and it is not practicable to store this heat, it has to be used to produce electricity. You could regard the new nuclear fuel as a store, the nuclear energy is there, just waiting to be released, and it would be practicable to stockpile fuel to be used if supplies of uranium were interrupted for some reason. I am not sure how much fuel is in fact stockpiled by the power companies that own power plants, but it would be possible for the federal government to pay to store more, if they wanted to.
Nuclear energy is already stored as binding energy in the atom nuclei and is released either by nuclear fission, by nuclear fusion, or radioactive decay of these nuclei.So, I think the question could be:Can we store nuclear power?orCan we store the power (electrical, mechanical, or thermal power) released from nuclear fission or nuclear fusion? .The answer is: yes, we can store the power produced from nuclear fission or nuclear fusion.For example, thermal power produced from nuclear fission in nuclear power plants can be used to produce hydrogen by thermochemical water decomposition (at efficiencies higher than 90 %). This hydrogen could be used later either in fuel cells to produce electricity during peak electric demand periods or could be used in transportation to fuel internal combustion engines.Another example is to use the electricity produced in nuclear power plants, during off-peak electricity demand periods, to pump water from a lower reservoir to a high reservoir and then during peak electricity demand periods this water is allowed to fall down on turbines connected to electricity generator system and thus producing electricity.
There are arguments about where to store waste.
nuclear energy
Water its self does not provide energy, however it can store some of the Suns energy, usefully in the form of potential energy (by virtue of its elevation in the gravity field of the planet).
The source of energy of plants is sunlight.
Nuclear energy appears as heat, and it is not practicable to store this heat, it has to be used to produce electricity. You could regard the new nuclear fuel as a store, the nuclear energy is there, just waiting to be released, and it would be practicable to stockpile fuel to be used if supplies of uranium were interrupted for some reason. I am not sure how much fuel is in fact stockpiled by the power companies that own power plants, but it would be possible for the federal government to pay to store more, if they wanted to.
The Advantages-The Energy is more efficient and cleaner for our air and it can be less expensive The Disadvantages-Nuclear Power Plants can be dangerous if not taken care of, There's is only certain areas geographically that you can put Power Plants (Away from Water) and you have to find a place to store all of the Nuclear Waste. (It has to stay underground for atleast 1000 years before it can be removed)
Nuclear energy is already stored as binding energy in the atom nuclei and is released either by nuclear fission, by nuclear fusion, or radioactive decay of these nuclei.So, I think the question could be:Can we store nuclear power?orCan we store the power (electrical, mechanical, or thermal power) released from nuclear fission or nuclear fusion? .The answer is: yes, we can store the power produced from nuclear fission or nuclear fusion.For example, thermal power produced from nuclear fission in nuclear power plants can be used to produce hydrogen by thermochemical water decomposition (at efficiencies higher than 90 %). This hydrogen could be used later either in fuel cells to produce electricity during peak electric demand periods or could be used in transportation to fuel internal combustion engines.Another example is to use the electricity produced in nuclear power plants, during off-peak electricity demand periods, to pump water from a lower reservoir to a high reservoir and then during peak electricity demand periods this water is allowed to fall down on turbines connected to electricity generator system and thus producing electricity.
they store it until it becomes less radioactive
no it does not store chemical energy it turns into thermal energy:)
Mitochondrions store power in animal cells for later use. However, plants have chloroplasts to store energy.
The main function of starch in plants is to store energy.
There are arguments about where to store waste.
What is the difference in which in animals and plants store energy?
Plants store chemical energy in sugar molecules. Plants go through photosynthesis in order to grow and store the food they need.
which carbohydrate don plants cells store energy