A 1 MW generator produces 1000 KWH every hour assuming its fully loaded. There are 8760 hours in a year, so assuming no downtime, it would generate 8,760,000 KWH in a year. 1MW = 1000000 watts 1 KW = 1000 watts 1 MW = 1000 KW 1 MW for 1 hour = 1 MWH 1 MWH = 1000 KWH
The number of homes that 2400 megawatts can energize depends on the average power consumption of a home. On average, a US home uses about 11,000 kWh per year. Assuming a continuous power supply of 2400 megawatts, you could potentially power around 1.8 million homes.
According to the lists on the internet one pressurized water reactor can supply between 300 and 3000 Megawatts.
Well if you think about it you can't really sell electricity so therefor it dosent really have a price but I'm pretty sure you weren't going to try and stik it in a bottle and sell it right
A voltage supply is needed to operate a circuit.
The main piece of information needed is the load wattage or amperage that will be connected to the power supply. Once this is known the power supply of a greater size that the load should be chosen. Also with this information the size of the wires can be calculated from the power supply to the load. Too small a wire will create a voltage drop at the load end of the circuit. This will cause under performance of the load.
To calculate the power needed to supply a city for 10 minutes, you would need to know the average power consumption of the city in megawatts. Once you have the average power consumption, you can multiply it by 10 minutes to determine the total energy required.
The number of homes that 2400 megawatts can energize depends on the average power consumption of a home. On average, a US home uses about 11,000 kWh per year. Assuming a continuous power supply of 2400 megawatts, you could potentially power around 1.8 million homes.
Hoover dam delivers around four billion kilowatt hours of power annually. This is about one seventh of the twenty-one billion kilowatt hours of power generated by the nation's hydroelectric power source, Grand Coulee Dam.
Koeberg Nuclear Power Station in South Africa has a capacity of around 1,860 megawatts, which can provide electricity to approximately two million households. It generates a significant portion of South Africa's electricity supply.
According to the lists on the internet one pressurized water reactor can supply between 300 and 3000 Megawatts.
That is not fixed but you can estimate the usage as 1 kW per person, so that a power station of 500 Megawatts could supply a population of 500,000 people.
An electricity meter is an energy meter, and measures the amount of energy, expressed in kilowatt hours, you have purchased from your electricity supply company.
Your question shows the importance of using the correct symbols, because your symbols are incorrect and, therefore, your question is confusing.So, are you asking how many milliwatts (mW) there are in a kilowatt (kW), or are you asking how many megawatts (MW) there are in a kilowatt(kW)?Notice that the symbol for a watt is an upper-case W. The symbol for a milli is a lower-case m, and the symbol for a mega is an upper-case M.If the former, then there are one-thousand milliwatts in a watt, and there are one-thousand watts in a kilowatt, so there must be one-million milliwatts in a kilowatt.If the latter, then there are one-thousand kilowatts in a megawatt, so a megawatt must be one-thousandth of a megawatt in a kilowatt.
First of all, a megawatt is not a unit of energy. It is a unit of power, or the rate at which energy is used. 1 watt corresponds to 1 joule per second. For example, a sixty watt lightbulb uses 60 joules of energy per second. So a megawatt is one million watts, or one million joules of energy per second. Electrical energy is often measured in kilowatt-hours by the electric company (So that they know how much to charge you). This is equivalent to the amount of energy that a kilowatt power source could supply in one hour. The amount of energy in joules that a kilowatt hour is goes as follows: 1 kilowatt = 1000 watts, so 1000 joules per second. Multiply this by the number of seconds in an hour, and you have 3600000J.
The number of homes that 1 megawatt (MW) can power in Panama depends on the average electricity consumption per household. Typically, 1 MW can supply power to about 800 to 1,000 homes, assuming an average consumption of 1,000 to 1,200 kilowatt-hours (kWh) per month per household. However, this can vary based on factors such as energy efficiency, local consumption patterns, and seasonal variations.
Darlington Nuclear Generating Station, located in Ontario, Canada, has a total electrical generating capacity of approximately 3,512 megawatts (MW). It consists of four reactors, each contributing to this output. The station typically produces enough electricity to power about 3 million homes, making it a significant contributor to Ontario's energy supply.
The price charged and the number of smoothies supplied are needed to create a supply schedule for a fruit smoothie shop.