Scientific and Production activity of Nizhyn laboratories of scanning devices (NLSD)is related with development of molecular and quantum-electronic power technologies and equipment, which are based on the use of power properties of molecules, atoms, ions and other elementary particles of matter, for the receipt of electric current with the use of renewable energy sources.: the sun, wind and water. These technologies are characterized by rapid renewal of basic capital goods and technologies, high qualification of personal: workers and office workers.

Existent macropower engineering and her component macroelectropower engineering have the certain failing and limitation. In particular, they examine energy sources, which need for production of thermal or electric energy the use of macroscopic elements of matter, for example, motion of streams of water, steam of air, interactions of these macroscopic elements between itself, their actions on the other bodies and not deal with the structure of matter.

The other sign of macroelectropower engineering is the use of macroscopic massive elements for intermediate transformation of one type of energy into the other.

The macropower systems are the systems of indirect action. They need double and even triple intermediate transformation of one type of energy into the other.

Beside that, the macropower engineering mainly uses not renewable energy resources (nuclear energy, thermal power engineering) and creates considerable ecological problems when using of renewable energy sources (large hydroelectric stations and wind power-stations).

In molecular power engineering unlike the macropower engineering, power properties of elementary particles of matter are used: molecules, atoms, electrons.

The systems of molecular power engineering can be classified on the type of working matter that is used for the receipt of energy and on physical principles of receipt of electric power.

According to the type of working matter the system of molecular power engineering are divided into the wind (air or gas) molecular stations, hydraulic or liquid molecular stations and molecular stations on a solid.

According to the physical principles, which are used for the receipt of energy, the systems of molecular electropower engineering can be divided into ionized, absorptive, electrokinetic, magneto-hydrodynamic, photo-electric coherent and other.

Technologies of molecular electropower engineering are developed on the use of the last achievements of molecular physics and thermodynamics, electrodynamics, atomic physics, nuclear physics and quantum electronics.

The technologies and equipments which we develop are universal enough for the receipt of electric current and providing it to different users. In future for the serial making of equipment both our enterprise and certain other technological enterprises can be involved.

 By Vasil Sidorov E-mail: sidorovvasil@gmail.com

on March 19, 2009    in queltanews.com