Power Factor using Load Current(3-Phase 3-Wire OS) Solution

STEP 0: Pre-Calculation Summary
Formula Used
Power Factor = sqrt(2)*Power Transmitted/(3*Current Overhead AC*Maximum Voltage Overhead AC)
PF = sqrt(2)*P/(3*I*Vm)
This formula uses 1 Functions, 4 Variables
Functions Used
sqrt - A square root function is a function that takes a non-negative number as an input and returns the square root of the given input number., sqrt(Number)
Variables Used
Power Factor - The power factor of an AC electrical power system is defined as the ratio of the real power absorbed by the load to the apparent power flowing in the circuit.
Power Transmitted - (Measured in Watt) - Power Transmitted is defined as the product of current and voltage phasor in a overhead ac line at the receiving end.
Current Overhead AC - (Measured in Ampere) - Current Overhead AC is defined as the current flowing through the overhead ac supply wire.
Maximum Voltage Overhead AC - (Measured in Volt) - Maximum Voltage Overhead AC is defined as the peak amplitude of the AC voltage supplied to the line or wire.
STEP 1: Convert Input(s) to Base Unit
Power Transmitted: 890 Watt --> 890 Watt No Conversion Required
Current Overhead AC: 6.9 Ampere --> 6.9 Ampere No Conversion Required
Maximum Voltage Overhead AC: 62 Volt --> 62 Volt No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
PF = sqrt(2)*P/(3*I*Vm) --> sqrt(2)*890/(3*6.9*62)
Evaluating ... ...
PF = 0.980715342459136
STEP 3: Convert Result to Output's Unit
0.980715342459136 --> No Conversion Required
FINAL ANSWER
0.980715342459136 0.980715 <-- Power Factor
(Calculation completed in 00.004 seconds)

Credits

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Vishwakarma Government Engineering College (VGEC), Ahmedabad
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7 Power & Power Factor Calculators

Power Transmitted using Area of X-Section(3-Phase 3-Wire OS)
Go Power Transmitted = sqrt((3*Area of Overhead AC Wire*(Maximum Voltage Overhead AC^2)*Line Losses*((cos(Phase Difference))^2))/(Resistivity*2*Length of Overhead AC Wire))
Angle of PF using Area of X-Section(3-Phase 3-Wire OS)
Go Phase Difference = acos(sqrt(2*Resistivity*(Power Transmitted^2*Length of Overhead AC Wire^2)/(3*Area of Overhead AC Wire*Line Losses*(Maximum Voltage Overhead AC^2))))
Power Factor using Area of X-Section(3-Phase 3-Wire OS)
Go Power Factor = sqrt(2*Resistivity*(Power Transmitted^2*Length of Overhead AC Wire^2)/(3*Area of Overhead AC Wire*Line Losses*(Maximum Voltage Overhead AC^2)))
Angle of PF using Load Current(3-Phase 3-Wire OS)
Go Phase Difference = acos(sqrt(2)*Power Transmitted/(3*Maximum Voltage Overhead AC*Current Overhead AC))
Transmitted Power using Load Current(3-Phase 3-Wire OS)
Go Power Transmitted = Current Overhead AC*Maximum Voltage Overhead AC*(cos(Phase Difference))/(sqrt(2))
Power Factor using Load Current(3-Phase 3-Wire OS)
Go Power Factor = sqrt(2)*Power Transmitted/(3*Current Overhead AC*Maximum Voltage Overhead AC)
Power Transmitted(3-Phase 3-Wire OS)
Go Power Transmitted = (1/3)*Power Transmitted per Phase

Power Factor using Load Current(3-Phase 3-Wire OS) Formula

Power Factor = sqrt(2)*Power Transmitted/(3*Current Overhead AC*Maximum Voltage Overhead AC)
PF = sqrt(2)*P/(3*I*Vm)

What is the value of maximum voltage and volume of conductor material in 3-phase 3-wire system?

The volume of conductor material required in this system is 0.5/cos2θ times that of 2-wire d.c.system with the one conductor earthed. The maximum voltage between conductors is vm so that r.m.s. value of voltage between them is vm/√2.

How to Calculate Power Factor using Load Current(3-Phase 3-Wire OS)?

Power Factor using Load Current(3-Phase 3-Wire OS) calculator uses Power Factor = sqrt(2)*Power Transmitted/(3*Current Overhead AC*Maximum Voltage Overhead AC) to calculate the Power Factor, The Power Factor using Load Current(3-phase 3-wire OS) formula is defined as the cosine of the angle between the voltage phasor and current phasor in an AC circuit. Power Factor is denoted by PF symbol.

How to calculate Power Factor using Load Current(3-Phase 3-Wire OS) using this online calculator? To use this online calculator for Power Factor using Load Current(3-Phase 3-Wire OS), enter Power Transmitted (P), Current Overhead AC (I) & Maximum Voltage Overhead AC (Vm) and hit the calculate button. Here is how the Power Factor using Load Current(3-Phase 3-Wire OS) calculation can be explained with given input values -> 0.980715 = sqrt(2)*890/(3*6.9*62).

FAQ

What is Power Factor using Load Current(3-Phase 3-Wire OS)?
The Power Factor using Load Current(3-phase 3-wire OS) formula is defined as the cosine of the angle between the voltage phasor and current phasor in an AC circuit and is represented as PF = sqrt(2)*P/(3*I*Vm) or Power Factor = sqrt(2)*Power Transmitted/(3*Current Overhead AC*Maximum Voltage Overhead AC). Power Transmitted is defined as the product of current and voltage phasor in a overhead ac line at the receiving end, Current Overhead AC is defined as the current flowing through the overhead ac supply wire & Maximum Voltage Overhead AC is defined as the peak amplitude of the AC voltage supplied to the line or wire.
How to calculate Power Factor using Load Current(3-Phase 3-Wire OS)?
The Power Factor using Load Current(3-phase 3-wire OS) formula is defined as the cosine of the angle between the voltage phasor and current phasor in an AC circuit is calculated using Power Factor = sqrt(2)*Power Transmitted/(3*Current Overhead AC*Maximum Voltage Overhead AC). To calculate Power Factor using Load Current(3-Phase 3-Wire OS), you need Power Transmitted (P), Current Overhead AC (I) & Maximum Voltage Overhead AC (Vm). With our tool, you need to enter the respective value for Power Transmitted, Current Overhead AC & Maximum Voltage Overhead AC and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Power Factor?
In this formula, Power Factor uses Power Transmitted, Current Overhead AC & Maximum Voltage Overhead AC. We can use 1 other way(s) to calculate the same, which is/are as follows -
  • Power Factor = sqrt(2*Resistivity*(Power Transmitted^2*Length of Overhead AC Wire^2)/(3*Area of Overhead AC Wire*Line Losses*(Maximum Voltage Overhead AC^2)))
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