Kilovolt-ampere meaning

Kilovolt-ampere is a unit of electrical power that measures apparent power.


Kilovolt-ampere definitions

Word backwards erepma-tlovolik
Part of speech Kilovolt-ampere is a noun.
Syllabic division ki-lo-volt-am-pere
Plural The plural of the word kilovolt-ampere is kilovolt-amperes.
Total letters 14
Vogais (4) i,o,a,e
Consonants (7) k,l,v,t,m,p,r

Kilovolt-Ampere: Understanding Electrical Power

When it comes to measuring electrical power, one common unit that is used is the kilovolt-ampere (kVA). It represents the apparent power in an electrical circuit and is a crucial metric in understanding the overall power consumption and distribution within a system.

What is a Kilovolt-Ampere?

A kilovolt-ampere is a unit of electrical power that is equal to 1,000 volt-amperes. It is used to quantify the total power in an AC circuit, taking into account both the voltage and current in the system. Unlike kilowatts (kW), which represent real power, kilovolt-amperes measure the total power including both real and reactive components.

Real vs. Apparent Power

Real power, measured in kilowatts, represents the actual energy consumed by a system to perform useful work. On the other hand, apparent power, measured in kilovolt-amperes, takes into account the total power flowing in the circuit, including reactive components that do not contribute to useful work but are necessary for maintaining voltage levels and magnetic fields.

Importance in Electrical Systems

Kilovolt-amperes are crucial in determining the sizing of equipment such as transformers, generators, and power cables in electrical systems. By understanding the apparent power requirements, engineers can design and implement efficient and reliable power distribution systems that can handle the total power demands of the connected loads.

Calculating Kilovolt-Ampere

The formula for calculating kilovolt-amperes in a circuit is simple: kVA = (Voltage x Current) / 1,000. By multiplying the voltage and current in the circuit and dividing by 1,000, you can determine the apparent power in kilovolt-amperes that the system requires to operate effectively.

Final Thoughts

In conclusion, understanding kilovolt-amperes is essential for anyone working with electrical systems. By grasping the concept of apparent power and its significance in power distribution, individuals can make informed decisions when it comes to designing, installing, and maintaining electrical networks for various applications.


Kilovolt-ampere Examples

  1. The power plant has a capacity of 500 kilovolt-amperes.
  2. The new transformer is rated at 750 kilovolt-amperes.
  3. The industrial facility requires a power supply of 1000 kilovolt-amperes.
  4. The generator was tested at 200 kilovolt-amperes.
  5. The electrical grid can handle up to 1500 kilovolt-amperes of load.
  6. The motor was operating at 300 kilovolt-amperes of power.
  7. The circuit breaker can handle a maximum of 1200 kilovolt-amperes.
  8. The substation is designed for 800 kilovolt-amperes of electricity transmission.
  9. The main distribution panel supplies 600 kilovolt-amperes to the building.
  10. The backup generator kicks in automatically when the load exceeds 400 kilovolt-amperes.


Most accessed

Search the alphabet

  • #
  • Aa
  • Bb
  • Cc
  • Dd
  • Ee
  • Ff
  • Gg
  • Hh
  • Ii
  • Jj
  • Kk
  • Ll
  • Mm
  • Nn
  • Oo
  • Pp
  • Qq
  • Rr
  • Ss
  • Tt
  • Uu
  • Vv
  • Ww
  • Xx
  • Yy
  • Zz
  • Updated 02/04/2024 - 14:26:06