MAIN ELECTROMAGNETIC COMPABILITY CRITERIA DEFINITION METHOD OF ELECTRICAL SUPPLY SYSTEMS BY INDUSTRIAL AND EQUAL TO INDUSTRIAL ELECTRICAL ENERGY CONSUMERS
Based on modern quantum physics, an original approach to the principle of electricity transmission to industrial and related consumers of electricity is proposed, which considers it to be an electrical installation that transmits electrical voltage to these consumers as a potential form of electromagnetic energy. Electrical voltage is considered as commodity energy product. Consumers' electric receivers convert a potential form of electricity into an active one, increasing the current of conduction of electricity transmission. The conductivity current has a longitudinal (active current acting in the direction of the voltage source) and transverse (jet current acting in the direction of the molecules of the electroelastic material dielectric medium to compensate for their bias current). The bias current leads to the quantization of dielectric molecules, in which the circular field takes the form of an oval (quanton) oriented in the direction of the transmission. Mathematically, quantization is considered as the combination of the physical state of matter of a molecule of a dielectric medium with the duration of such a state. Due to this, based on the principle of superposition, the electromagnetic field of the power supply system is represented as a quanton, acting simultaneously in the longitudinal and transverse directions of the transmission. The energy of the field of the power supply system is a wave of quantization of its dielectric medium, which runs from the power source to the electric receivers.The reactive load factor can be considered the economic equivalent of the reactive load, which must be normalized depending on the specific parameters of the current-carrying parts of the transmission, depending on the schematic diagram of the outer part.The technical essence of the method for determining the normative value of the reactive load factor of the power supply system to a specific electricity consumer is disclosed, which guarantees the electromagnetic compatibility of the mentioned system is guaranteed and the economic essence of such method is determined.