A generator bus is the bus that connects the generator to it's generating transformer.
The audio bus, USB bus, HDD bus...
The three types of bus present in every CPU are address bus, data bus and control bus.
Another name for a local bus is called a system bus. A local bus or system bus typically travels the day route day in and day out.
An Address Bus gives the memory instructions on where to place the actual data that it will stored or read. Basically a map location. The Data Bus carries the information that is going to be stored or read using the location that the Address Bus gave to the memory. Address bus is unidirectional while data bus is bi directional
an electromagnet
A generator bus is the bus that connects the generator to it's generating transformer.
No.
A PU bus in the power system which has the constant voltage value and is connected to a generator. The extra required energy or excess energy in the power system is managed by connected generator to this bus.
your generator isn't charging. try replacing the brushes. if not then try thesamba.com and look for another generator.
The generator voltage has to be the same as the bus voltage
A reverse current relay prevents a generator from discharging the battery when generator output is less than battery voltage. When generator output is greater than battery voltage, the reverse current relay closes and connects generator to electrical bus.
A reverse current relay prevents a generator from discharging the battery when generator output is less than battery voltage. When generator output is greater than battery voltage, the reverse current relay closes and connects generator to electrical bus.
the swing bus is selected bus that has a fictitious generator with a p.u magntiude and phase angle equal zero ..in the power flow calculations ,The extra required energy or excess energy in the power system is managed by the generator of this bus.( supply/absorb p&Q) In order to achieve the balance between the generation ,the losses and the load ( Pgeneration = Pload + Plosses) solution of the power flow system is achieved when swing bus equal nearly zero
The output from a utility generator is low-voltage and very high current (later stepped up to a high voltage for transmission). The high current requires very large conductors, and busbars enclosed in a bus-duct are the most practical way to accomplish this. Some generating systems also circulate coolant through the bus-duct to keep the bus bars from overheating.
In the construction trade, bus wire is used for the feeders that connect the two wires on a blasting cap to the power supply. The other end of the bus wire is connected to the hand generator that is used for a power supply to energize the blasting cap.
A synchronous generator is operating at lagging power factor (positive P & Q) when it is supplying P & Q to the system. P & Q are positive which means that they are flowing away from the bus where the generator is connected (overexcited case). On the other hand, it is operating at leading power factor when it is supplying P and absorbing Q. The sign of Q is negative which means that it is flowing towards the generator bus (underexcited case).
Not necessarily. Reverse power simply means that the load is providing power to the generator, instead of the reverse. Its not a good place to be, because you waste the power needed to turn the generator, and you could damage it as well.