It Powers the Huge turbine that produces electricity.
Steam in nuclear power plants is used to drive turbines for generation of kinetic energy.
Fuel rods are the nuclear fuel in a nuclear power plant. They are used to turn water to steam, which is then used to turn a turbine. They do not "generate energy", since energy cannot be created or destroyed (E=mc^2). They are used to generate electricity, or to convert nuclear energy to electric energy.
Plutonium (as dioxide, carbide, mixed oxides or carbides) is an important nuclear fuel for nuclear power reactors.
it keeps the plant stuck in the ground so i won't blow away in the wind and water travells throught it from the roots to the leaves
Uranium (as metal, alloy, oxide, carbide, etc.) is the nuclear fuel for the nuclear power reactors.
Operating at 98% Efficiency, U.S. Nuclear Plants Play Vital Role in Beating Sweltering Heat Wave
The development of steam power enabled the growth of industries such as manufacturing, transportation (like steam trains and ships), and mechanized agriculture. It played a crucial role in the Industrial Revolution by providing a reliable and efficient source of energy to power machines and revolutionize productivity.
Most nuclear power plants use thermal-neutron reactors. These reactors use what are called thermal or slow neutrons. Water us used in the reactor as a neutron moderator. This means that the water slows down the more energetic, or fast, neutrons. The slower neutrons are more able to cause atoms to undergo fission. In other words, water is used to help control the reaction. For the generation of electricity, the heat of the reaction boils water to produce steam to run the turbines. The turbines turn the generators. About 60-65% of the heat of a typical nuclear power plant is waste energy. Water is used to cool the plant, and then it is put through heat exchangers to discharge the heat into the air or into some nearby lake, river, or ocean. The availability of water is a very important issue in siting a nuclear power plant, and is the reason almost all of them are placed near large bodies of water.
In commercial power plants steam generators can measure up to 70 feet (~21m) in height and weigh as much as 800 tons. Each steam generator can contain anywhere from 3,000 to 16,000 tubes, each about three-quarters of an inch (~19mm) in diameter. The coolant (treated water), which is maintained at high pressure to prevent boiling, is pumped through the nuclear reactor core. Heat transfer takes place between the reactor core and the circulating water and the coolant is then pumped through the primary tube side of the steam generator by coolant pumps before returning to the reactor core. This is referred to as the primary loop.That water flowing through the steam generator boils water on the shell side to produce steam in the secondary loop that is delivered to the turbines to make electricity. The steam is subsequently condensed via cooled water from the tertiary loop and returned to the steam generator to be heated once again. The tertiary cooling water may be recirculated to cooling towers where it sheds waste heat before returning to condense more steam. Once through tertiary cooling may otherwise be provided by a river, lake, or ocean. This primary, secondary, tertiary cooling scheme is the most common way to extract usable energy from a controlled nuclear reaction.These loops also have an important safety role because they constitute one of the primary barriers between the radioactive and non-radioactive sides of the plant as the primary coolant becomes radioactive from its exposure to the core. For this reason, the integrity of the tubing is essential in minimizing the leakage of water between the two sides of the plant. There is the potential that, if a tube bursts while a plant is operating, contaminated steam could escape directly to the secondary cooling loop. Thus during scheduled maintenance outages or shutdowns, some or all of the steam generator tubes are inspected by eddy-current testing. sry if this didnt help im only thirteen sry sry sry sry
R. W Durante has written: 'Role and direction of nuclear regulatory research' -- subject(s): Government policy, Nuclear energy, Nuclear facilities, Nuclear power plants, Research
When the primary gardener is absent the auxiliary plant attendant assumes the role of attending the plants.
This depends on both the role (e.g. missile, attack, research) and class of the submarine. The only thing that defines a submarine as nuclear is that it derives its power from nuclear reactors, it does not need to carry nuclear weapons (although almost all do).Role defines the purpose the submarine was designed to fulfillClass is the specific "model" of the submarine