I work on pools , BUT don't take me lightly , I know alot about my generators , I have 3 back at home . I have a 1000009 GW generator that I found in a field , I use it alot for powering my kettle , Thats all I can pretty much power ... Its not that powerful to be honest .
If load on a generator is greater than the generator can provide, the generator will begin to slow down. If it slows down too much, it will lose synchronism.
5000 Watts if it runs ideally. It really depends on the generator's efficiency. Lets say, if its working on 80% efficiency, it'll provide with 0.8 * 5000 watts of electric power.
In a coal-fired power station, a boiler burns coal to produce steam. The steam makes a turbine spin. The turbine drives an electricity generator. The electricity from the generator is converted to a higher voltage by a transformer. This higher voltage is to enable transmission over long power lines without losing too much energy. When it comes to reach our homes, it is then converted back into lower voltage by other transformers. Nuclear power stations are similar - instead of a coal-fired boiler, a nuclear reactor creates the steam. Wind turbines use the blades to turn the generator.
A Stirling engine generator is less powerful than a combustion engine, but more ecologically sustainable. It operates on heat exchange. There are many types of Stirling engines.
Transformers are rated based on the amount of current flowing through them, irrespective of whether the current is in phase with the voltage or not, thus KVA. When it comes to generators, what the owner is interested in is how much real power the generator can deliver (watts). Most generators are rated at a specific real power and a power factor (often .95).
The amount of electricity going into a generator is variable and depends on the energy demand or load being drawn from the generator. Generators are typically rated in kilowatts (kW) or megawatts (MW) to indicate their capacity to produce electricity. The rate at which electricity is supplied to a generator is often measured in terms of power, which is the product of voltage and current.
A 5.5 kW generator produces 5,500 watts of power. This is the maximum power output that the generator is capable of producing under optimal conditions.
The amount of energy a diesel generator set can produce depends on its size and capacity. Typically, diesel generator sets range from small, portable units generating a few kilowatts (kW) to large industrial generator sets producing several megawatts (MW) of electrical power. A small diesel generator set may produce between 5-20 kW, while larger industrial models can generate anywhere from 500 kW to several MW.
A bicycle generator can typically produce around 100-300 watts of power, depending on the speed at which the bike is pedaled. Factors that influence its output include the efficiency of the generator, the resistance in the system, and the speed at which the bike is pedaled.
it depends on the power production capabilities of the generator, and the power usage of the electronic applications...this power is measured in Watts, usually just W, and all the parts should have the relative information on how much Watts they use/produce
The difference between a commercial power generator and a regular power generator is that a commercial one is much expensive than the regular one. It's much better to purchase the regular generator if your not planning to use it for business purposes.
Bicicle generators do not produce the same power out (usually much less) it would take hours to do what a large generator can create at any moment for long periods of time
244.7kW equates to about 328.15 horsepower.
Your normal electric power is made to power all of your household. A generator requires much more maintenance, so if you have the option of using normal electric power, there is much less hassle. The generator can be kept for emergencies.
Electricity generators usually go for about 3-10 thousand dollars. It really depends on the size and how many kilowatts you are looking to get out of it.
It's not the amount of wind, but the design of the generator, that decides what voltage is produced. The amount of wind will determine the power produced.
The price range when purchasing a power generator depends a great deal on the size of a generator. A small generator for the garage can be purchased for $100.00 while a large industrial generator can cost as much as $30,000.00.