ON THE NORMALIZATION OF THE REACTIVE LOAD OF ELECTRIC TRANSMISSION OF INDUSTRIAL-LENNY AND ELECTRIC POWER CONSUMERS ELECTRICALLY CONSUMED

Abstract

A new mathematical quantum physics-based approach to the process of power transmission to the industrial electricity consumers and the ones equated to them, which allows to improve the power supplying quality of the mentioned consumers and save electric power resources of a country is offered. Wherein electric power system voltage is considered as a potential form of electromagnetic energy and commercial product of electric power industry, which is a base one of any economy. The power transmission organizations, with the help of their and consumers’ networks, supply voltage to a receiving point in the power supplying system of specific consumers at the level of quality established by the state. It is known that the main voltage quality indicator is a level of its deviation from the nominal value. In the paper the voltage drops, linked with reactive consumer load, are proposed to be optional and completely dependent on its run mood.That is why it is offered to normalize (control) the reactive load coefficient value for each of the con-sumers in the way that the voltage deviation of the receiving point in the maximal load mood of power sup-plying system does not exceed 5 % of the nominal value. Taking into account that an integral part of any electric device is its electromagnetic field the one (field) of power supplying system can be presented in the form of a quanton, whose electrons of polarized molecules revolve in the two mutually perpendicular di-rections - lengthwise and crosswise the direction of electric transmission in the volume of solid angle 45 de-gree under the influence of geomagnetic field.