Let's look at this from a from a simplistic point of view.
When working with electricity, power is a combination of amperage, and voltage. Amperage drops significantly with distance, voltage does not. Because of this, a power plant generates its power as a combination of a huge voltage with very little amperage. Therefore, the power loss over long distances is minimized. Power station voltages are in the hundreds of thousands of volts.
However, these voltages are too dangerous for everyday use. Thus, they are transformed down to lower voltages such as 120 for household use, 480 for industrial, and other voltages.
During power transformation, power is not lost. Thus, if you decrease the voltage, then your amperage goes up to provide the same power.
This is an electrical question, not a nuclear question.
The voltage produced by a nuclear power plant is a function of the design of the generator. It varies, depending on the manufacturer. One plant that I worked on had a generator output voltage of 24,000 volts.
In Australia it is usually 11kV (11 000 volts) this is then stepped up to transmission voltages of 33kV, 66kV, 132kV etc.
2,300 to 30,000 Volts AC depending on the size of the power station.
I work at a hydro electric generating station and our generators are 35 MW a piece and they generate at 13.8 KV.
A: POWER PLANTS must supply the grid depending on the states and location it.
no matter what voltage is coming out it must feed the grid usually 475kv transmission
the generating voltage in generating station is 11kv
#FAIL Your going on this website to figure out that *EASY* question? Smh* Talk about #FAILLL Sorry hun I'm just speaking the #TRUTH
electrisity comes from big electricity generators .
Imagine you are asked to advise the utilities company about the costs (negatives) and benefits associated with the use of fossil fuels in thermal power stations. a. List four costs of using fossil fuels in thermal power stations. b. List four benefits of using fossil fuels in thermal power stations.?
There are two types of transformers:- 1. Step-up transformer & 2. Step-down transformer. A transformer used to increase the voltage is called Step-up transformer. A transformer used to decrease the voltage is called Step-down transformer. Uses of step-up transformer:- in power supply stations, in picture tubes of TV, computer monitors, halogen lights, etc. Uses of step-down transformer:- in supply of electricity to homes, in the power supply to the low voltage devices like radio, music systems which are run by AC mains.
See the attached link for info on plants in France
In long range,electric current can flow only when the wires are given high voltage.The voltage is about 20-30kV.eg.lightning. ---------------------------------------- Current of any voltage can flow in a wire. However, the larger the current is, the larger the resistance to flow and the greater the loss of energy during transmission. Therefore, to transfer the same amount of energy per second (power) without as much loss of energy due to resistance, current needs to be lowered by increasing the voltage since Power = Current * Voltage.
If we would like to transmit the voltage that comes staright from power stations without increasing it, we would have to use wires of size of the motorway to carry it. When we increase the voltage, current decreases which means we can use less diameter wire and we can transmit the power easly. P.zak bury
when reading voltage at the meter base where power comes in the house.
It comes along wires in the street that take the power from a transformer. The transformer is fed by wires working at a higher voltage, and there are usually several transformer stages at different voltage levels leading back to the nearest power plant.
it really depends on the station and it is referred to as distributed voltage, Our utility is 69 kv or 69,000 volts. it is stepped down to a usable voltage by transformers for distribution.
Power stations on a national grid generate Alternating Current (AC) This power is sometimes referred to as 'Mains' electricity or 'Network' (Netz) electricity. The output from a power station is at a very high voltage. This allows it to be sent down very long wires (Transmission Lines) without loosing voltage, due to the resistance of the wires. AC can easily be changed from high voltage to low (and back again) by a very simple transformer. The reduced voltage for use in a house, is either 230v (Europe) or 110v (USA).
Power stations use step-up transformers to transmit power at a high voltage instead of a high current. This reduces the power lost in the transmission lines.
The input voltage range for the Toshiba power supply is AC 100V - 240V. The output voltage is DC 19V / output current is 4.74A. This power supply comes with a power cord and packaging will state voltage recommended for the product.
No, nothing to do with nuclear. Biomass means vegetable matter grown for burning, and comes under Renewable Energy as it can be regrown every season.
When you increase voltage (V) then, to get the same total power (W), the current (I) must be decreased. This result comes from the Power Law: Power = voltage x current Ohms Law does not deal with power at all, it deals only with the relationship between voltage, resistance and current: Voltage = resistance x current
Through power lines which operate at high voltage over long distances, this is then stepped down to domestic level, either 120 or 240 volts
there are no solar power stations in new zealand
Cottam power stations was created in 1969.