THat depends on what you would use it for.
yes.it is possible to start dc series generator on no load condition
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Any device that uses the generator to supply its operating voltage is electrically classed as a generator load.
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.
A bench and no load! Whatever you are testing has no load. It might be a generator or a motor for example. If a motor it wouldn't be connected to anything. If a generator it would have nothing plugged in.
Very large load haul dump trucks Used in mining have a huge diesel engine that turns a big generator. The electrical power from this goes to a big electric motor in each wheel.
hi, when generator is running on no load,it is having its own load because of it produce some voltage drop,result electric energy is generated.
A DC motor converts electrical energy to mechanical energy. The converted energy is provided to a mechanical load.A DC generator converts mechanical energy to electrical energy. The converted energy is provided to the electrical load (voltage, current referring load).A DC motor can be used as a DC generator and vice-versa.
If the load is too heavy the voltage droops because of the drop across the generator's internal impedance.
The load conductor is connected to the load side of the generator breaker. Once the generator is up to speed the load breaker is closed and the voltage is then applied to the load.
Actually this question can not be answered since the actual time mainly depends on the load attached to the generator. If running idle (i.e. no electrical load connected) it will run significantly longer than with full load connected.
It is a device that synchronize the electrical current from an emergency generator and main utility. It is usually used to prevent blink when main utility power comes back. It synchronized both current and slowly moved the load from emergency generator to main utility and released the emergency generator from the load.
Assuming the generator converts 90% of the mechanical power into electrical power, it has an efficiency of 90%, which means it consumes 11 kW of mechanical power under a full electrical load of 10 kW. Under no load the frictional losses will still apply, but the resistive losses in the windings will not be present. Therefore the no-load losses can be estimated as 500 watts in this conditon.
An electric generator produces electrical energy. It converts mechanical energy to electrical energy by interacting with a magnetic field. The amount of electrical energy converted to useful work in a given time interval is the power output. If the generator is not connected to any load, then no work is done and there is no power.
It is a device that synchronize the electrical current from an emergency generator and main utility. It is usually used to prevent blink when main utility power comes back. It synchronized both current and slowly moved the load from emergency generator to main utility and released the emergency generator from the load.
Load rejection occurs when load is suddenly removed from the generator. The most obvious example of this is the breaker connecting the generator to the power grid opens. This results in a full load rejection. Load pick up means the generator is supplying power to a given load. When a generator comes on line, it will pick up some load that might have been supplied by another generator.
A generator, rated at 16 MW, should be able to continuously supply a load of 16 MW. You don't need to compute its 'minimum load', because the minimum load will be zero watts! In other words, you can run the generator with no load whatsoever if you wish to waste fuel.The point is that the power supplied by a generator is determined by the load, NOT by the generator itself -so it is important that the generator is capable of supplying the maximum load applied to it. A generator's 'rated power output' simply tells us the maximum load it is capable of supplying.