To answer this question the voltage value of the generator must be stated.
max.load that can run on 62 kva dg is of 86 amperes.
If no current flows through a load, then no energy is received by the load. Energy is transferred through the flow of current, so without any current, there is no energy transfer to the load.
At full load a new 400 kva genset will use approx 80 Litres /hr, at 75% load approx 62 L/hr and at 50% approx43 L/hr...assume 0.8 pf
Because by increasing the load resistance, the total circuit resistance is reduced. This means with less resistance, there is more current drawn from the source. Doubling the size of a load resistor increases the load current.
4kva
An ammeter is connected in series with the load to measure the current flowing through the load. By placing the ammeter in series, it becomes a part of the circuit path so that all the current flowing through the load also passes through the ammeter, allowing for an accurate measurement of the current.
Load current is simply the name given to the current drawn by a load from its supply. In the case of a d.c. circuit, this is determined by dividing the supply voltage by the resistance of the load; in the case of an a.c. circuit, it is determined by dividing the supply voltage by the impedance of the load.
When the load current exceeds the SCR current rating, SCRs are connected in parallel to share the load current. Further the holding currents of the devices should not be so much different that at reduced load current one of the device gets turned-off because of fall of current through it blow its holding current value.
Balanced load means no unbalanced currents, so the neutral current should be near zero.
Put too much current through it. Very carefully.
It depends on the resistance (d.c.) or impedance (a.c.) of the load.
The FLA of a motor is the amperage that the motor operates at. So to answer the question, 100%.