It depends on the temperature of the water that you begin with.
But lets say that you start with 100 Kg of water at 100'C.
the heat of vapourization of water is 2260 J /g or 2,260,000 J/Kg
Since we have 100Kg it would require 226,000,000 J
converting Joules into Kilowatt hours gives
226 MegaJoules
as 1 kilowatt hour is equal to 3.6 megajoules
226/3.6 =62.77 kilowatt hours
The amount of heat needed to produce electricity depends on the type of power plant being used. In general, fossil fuel power plants such as coal or natural gas plants require high temperatures to generate steam that drives turbines to produce electricity. Renewable energy sources like solar or geothermal also rely on heat to generate electricity through different processes.
Gas-fired power plants generate electricity by burning natural gas to heat water and produce steam to turn turbines. The amount of electricity generated by gas depends on factors such as the efficiency of the power plant and the quantity of gas burned per unit of time. On average, natural gas power plants can convert about 50% of the energy in the gas into electricity.
Through machinesMy answer is short and simple, although not as much as the first one, lol. Nuclear power plants create electricity much the same as any other power plant the difference is the fuel used. The nuclear fission is the energy used to heat water that creates steam to turn a turbine which generates electricity.
The amount of MMbtu required to produce one ton of steam can vary depending on the efficiency of the boiler and the pressure of the steam. On average, it takes about 10-12 MMbtu to produce one ton of steam at standard conditions.
The power output of a steam turbine depends on various factors such as turbine size, steam pressure and temperature, and efficiency. Large steam turbines in power plants can generate hundreds of megawatts of electricity, while smaller turbines in industrial settings may produce tens to hundreds of kilowatts.
The amount of heat needed to produce electricity depends on the type of power plant being used. In general, fossil fuel power plants such as coal or natural gas plants require high temperatures to generate steam that drives turbines to produce electricity. Renewable energy sources like solar or geothermal also rely on heat to generate electricity through different processes.
Fossil fuels produce electricity when they are burned to make steam or smoke which turns generators to make electricity. But we must be careful that we are not burning too much fossil fuels so that we will run out one day. :)
A coal fired station burns coal to produce heat. The heat boils water to produce high pressure and temperature steam. The steam expands in a turbine to rotate the shaft. The turbines rotation drives a generator. The generator produces electricity which is sent out to the consumers. . I hope this helped, believe me i am a proffesional scientist
How much steam is required to produce 5 MW power in steam turbine?In fully condensing turbine we will need 20 TPH steam required to generate for 5MW
A 300 grams of water takes about 90 seconds to boil in a 2 kW kettle, so that is 2000 watts x 90 seconds which is 180,000 Joules of energy. But to convert that water completely into steam requires an extra 300x550x4.2 Joules, which is nearly 700,000 Joules. So converting it to steam takes 4-5 times as much energy as boiling it. That is why it takes a while for a kettle to boil dry.
The amount of MMbtu required to produce one ton of steam can vary depending on the efficiency of the boiler and the pressure of the steam. On average, it takes about 10-12 MMbtu to produce one ton of steam at standard conditions.
Gas-fired power plants generate electricity by burning natural gas to heat water and produce steam to turn turbines. The amount of electricity generated by gas depends on factors such as the efficiency of the power plant and the quantity of gas burned per unit of time. On average, natural gas power plants can convert about 50% of the energy in the gas into electricity.
The power output of a steam turbine depends on various factors such as turbine size, steam pressure and temperature, and efficiency. Large steam turbines in power plants can generate hundreds of megawatts of electricity, while smaller turbines in industrial settings may produce tens to hundreds of kilowatts.
Through machinesMy answer is short and simple, although not as much as the first one, lol. Nuclear power plants create electricity much the same as any other power plant the difference is the fuel used. The nuclear fission is the energy used to heat water that creates steam to turn a turbine which generates electricity.
34000mw
There is voltage in strawberries. The voltage makes them have electricity if it didnt maybe not has much flavor.
The amount of electricity generated by a steam turbine in one second depends on several factors, including the size and efficiency of the turbine, the pressure and temperature of the steam, and the overall power output of the turbine. On average, a large steam turbine can produce anywhere from 1 to 5 megawatts of electricity per second. However, it is important to note that this is a general estimate and actual output can vary significantly based on specific operating conditions and design parameters.