How Do You Spell ELECTRIC POWER TRANSMISSION?

Pronunciation: [ɪlˈɛktɹɪk pˈa͡ʊə tɹansmˈɪʃən] (IPA)

The correct spelling of "electric power transmission" is /ɪˈlɛktrɪk ˈpaʊər trænzˈmɪʃən/. The word spells as "E-L-E-C-T-R-I-C" represents the electrical nature of the power being transmitted. The spellings "P-O-W-E-R" and "T-R-A-N-S-M-I-S-S-I-O-N" indicate the mode of transmitting electrical energy from the generation source to the end-user. The IPA phonetic transcription helps in accurately represent the individual sounds in the word, and it is essential for those learning English as a second language to understand the pronunciation of words.

ELECTRIC POWER TRANSMISSION Meaning and Definition

  1. Electric power transmission refers to the process of moving electrical energy from the power plants or generation facilities to the various distribution systems or end-use consumers. It involves the efficient and controlled transfer of high-voltage electrical power over long distances through a complex network of transmission lines, transformers, and substations.

    Electric power transmission is a crucial aspect of the electrical grid and is responsible for transferring bulk quantities of electricity from power generation sources to load centers. It enables the delivery of electricity to populated areas where it is required for lighting, heating, industrial processes, and other forms of energy consumption.

    The transmission system typically operates at high voltages, typically ranging from hundreds of thousands of volts up to several hundred kilovolts. This high voltage is essential for minimizing energy losses during transmission over long distances. The electricity generated at power plants is stepped up to high voltages using transformers before being transmitted through overhead or underground transmission lines.

    This transmission infrastructure is carefully designed and maintained to ensure the reliable and safe delivery of electricity. Various protective devices and controls are incorporated to prevent system failures and to mitigate voltage fluctuations. Substations play a significant role in transforming transmission voltage levels into lower values suitable for distribution to consumers.

    Overall, electric power transmission forms a vital link in the electricity supply chain, enabling the efficient and widespread distribution of electrical energy for societal needs.