QUELTAnews Staff Contacts

 

 

 

 

 

 

Director of QUELTAnews staff -  Vasil I. Sidorov 

  
Vasil I. Sidorov, 
Candidate of engineerings sciences
E-mail: sidorovvasil@gmail.com


Education:

Kyiv Suvorov Military School, Qualification of Translator Le français and English (1970)
Kyiv Higher Military Aviation Engineering School, Electrical and Electronics Engineer (Automatic Equipment of Piloted Aircrafts, and Laser Equipment of Piloted Aircrafts (1975)
Kyiv Polytechnic Institute, Candidate of Technical Sciences (1987) in Optical Devices,

Also:
Nizhyn State University after Mykola Gogol, Ukraine, Department of Physics and Mathematics, Chief of Scientific Research Sector and Senior Researcher (1988-1990)
Director, Center of Scientific and Engineering Works «Element and Systems» of the Union of Scientific and Engineering Societies of USSR, (1989-1991)
Director, Nizhyn Laboratories of Scanning Devices Ltd, (1991-2011)
Chair of the Board of JSC «Nizhyn Mechanical Plant» (1997-1998)

Prior Experience:
• Electrical and Electronics Engineer, Department of Main Designer, «Progress» Plant at Nizhyn of Production Group «Factory Arsenal» at Kyiv (1975-1977)
• Chief of Laser and Applied Optics Research and Development Group, Department of the Automated Computer Systems of Control of Technological Processes of «Progress» Plant at Nizhyn of Production Group « Arsenal Factory » at Kyiv (1977-1986).
o Research of Optical Image Pick up, Processing and Recognition (1977-1979) with the Department of Pattern Recognition of Institute of Cybernetics of Academy of Science of the USSR (Kyiv) (1977-1979).
o Research of Optical Coupling of Laser Radiations of GaAlAs - Geterostructures with Gradient Cylinder Quarts Waveguides for Fiber Optical Communication of Remote Computers (1980-1982).
o Controlling of Optical Radiations in Space and Time. Research of Dynamical Plasma Forming Process in Metals under the Action of Nd: YAG Laser Radiations and Development of Laser Method of Dynamical Balancing of Gyroscope (1982-1983).
o Controlling of Optical Radiations in Space and Time. Research and Development of Large Bandwidth Optical Deflectors of Optical Electronic Devices (1983-1986).
• Candidate of Technical Sciences Optical Devices, Kyiv Polytechnic Institute, (1987).
• Director of Scientific Research Sector and Senior Researcher, Department of Physics and Mathematics, Nizhyn State University after Mykola Gogol, Ukraine, (1988-1990).
• Director, Center of Scientific and Engineering Works «Element and Systems» of the Union of Scientific and Engineering Societies of USSR at Nizhyn, Ukraine (1989-1991).
• Director, Nizhyn Laboratories of Scanning at Nizhyn, Ltd, Ukraine (1991-2011). • Chief of the Board of JSC «Nizhyn Mechanical Plant» at Nizhyn, Ukraine (1997-1998).
• Director of Nizhyn Laboratories of Scanning at Nizhyn, Ukraine (1991-2011). From the beginning enterprise focuses on the life sciences, medical devices, cleantech and renewable energy technologies.

o Research of Interaction of Laser Radiations of a Different Range of Light-Spectrum with Biological Tissues. Development of scanning medical apparatus for general therapy and ophthalmology. The creation of serial production of therapeutical and ophthalmological equipment, applied in laser therapie and microsurgery: Scanning therapevtic laser SM-1; Scanning therapevtic laser SM-2; Scanning therapevtic laser SM-3; Scanning ophtalmic therapevtic laser SM-4; Scanning ophtalmic therapevtic laser SM-5; Laser Ophthalmocoagulator SM-2000 on the basis of a high-intensive semiconductor laser and Microsurgical ophthalmological apparatus SM-2001 on the basis of a Nd:YAG and Ho:YG lasers (2001). More than 2000 units of such equipment are working today in hospitals. The positive reviews of specialists and users witnessed high quality of apparatus.

o Research and Development of photosensitive meterial on the base of photoresists and chalcaids of silver. Research of thin-film and thick-film Holograms. Creation of serial production of holographic Fresnel lenses and linear diffraction gratings. Educational devices, widely applied during educational processes while studying different topics in Physics in educational institutions, is another successful project of our team. In 1993 the educational device ESPE-1 "Optics" and an educational device ESPE-2 "Electroradiotechnics", which belong to the units "Elements and systems of the physical experiment", were designed and introduced into production by our team. (1993 - 1997).

o Researches and development of new types of quantum-electronic and molecular power technologies and equipment, which are based on the use of power properties of molecules, atoms, ions and other little particles of substance, for the receiving of electric current with the use of renewable energy sources: of the Sun, wind and water.

o Applied researches in the following leading themes of energy sciences within the frame of the Renewable Power Engineering Program: Renewable Wind and Hydropower Engineering (WHPE) Program; Concentrated Thermal Sun Power Engineering (WHPE) Program; Photovoltaic Solar Power Engineering (PSPE) Program and Next Generation Molecular Power Engineering (NGMPE) Program.

Professional interests

Renewable Wind and Hydropower Engineering (WHPE):
The Renewable Wind and Hydro-power engineering (WHPE) Program focuses research, development, and deployment projects and activities in next technology areas: The Damless Hydropower Stations with the submerged and semi-submerged hydro-turbines; The Combined Hydropower Systems for hydro-accumulation and electrical current production with the submerged and semi-submerged hydro-turbines on the existent hydroelectric power stations; Wind turbine systems for production of heat, heat storage (accumulation) and supply to residential houses (in the number, combined with classical electrical and gaseous boilers); Wind turbine systems (in the number, combined with classical electrical and gaseous boilers) of production, storage (accumulation) and supply of heat energy for agro-industrial objects (green houses, elevators, fruits and vegetables stores, cow farms, pork farms, poultry farms); Concentrated solar thermal systems of production, storage (accumulation) and supply of heat energy to residential houses (in the number, combined with classical electrical and gaseous boilers); Concentrated solar thermal systems (in the number, combined with classical electrical and gaseous boilers) of production, storage (accumulation) and supply of heat energy for agro-industrial objects (green houses, elevators, fruits and vegetables store, cow farms, pork farms, poultry farms).
The specific projects of the RWHE - Program are detailed below:

1. The creation of technologies and equipment of the damless hydroelectric power stations with the use of the submerged and semi-submerged hydro-turbines.
2. The research of technologies and equipment for the increase of efficiency of the existent hydroelectric power stations by the hydro-accumulation of «worked» water with the use of the submerged and semi-submerged hydro-turbines. The creation of the combined hydropower systems for hydro-accumulation and electrical current production with the submerged and semi-submerged hydro-turbines on the existent hydroelectric power stations;
3. The research of technologies and equipment for the increase of efficiency of the existent hydroelectric power stations by the hydro-accumulation of «worked» water with the use of the wind turbines. The creation of the Combined Wind Power Systems for hydro-accumulation and electrical current production on the existent HPPs and pumped storage HPPs;
4. The creation of technologies and equipment of wind turbine systems for production of heat, heat storage (accumulation) and supply to residential houses (in the number, combined with classical electrical and gaseous boilers);
5. The creation of technologies and equipment of wind turbine systems (in the number, combined with classical electrical and gaseous boilers) of production, storage (accumulation) and supply of heat energy for agro-industrial objects (green houses, elevators, fruits and vegetables stores, cow farms, pork farms, poultry farms);
6. The development and research of technologies of the use of wind turbines for prevention of raising of level of soil waters, prevention of flooding of territories, overflow-pipe and irrigation of agricultural lands;
7. The development and research of technologies of the use of wind turbines for water-supply and water preparing (drinkable water treatment) ;
8. The creation of technologies and equipment of Concentrated solar thermal systems of production, storage (accumulation) and supply of heat energy to residential houses (in the number, combined with classical electrical and gaseous boilers);
9. The creation of technologies and equipment of Concentrated solar thermal systems (in the number, combined with classical electrical and gaseous boilers) of production, storage (accumulation) and supply of heat energy for agro-industrial objects (green houses, elevators, fruits and vegetables store, cow farms, pork farms, poultry farms).

Concentrated Thermal Sun Power Engineering (CTSPE):
Concentrated Thermal Sun Power Engineering (WHPE) Program focuses research, development, and deployment projects and activities in next technology areas: Concentrated solar thermal systems (in the number, combined with classical electrical and gaseous boilers) of production, storage (accumulation) and supply of heat energy for residential houses; Concentrated solar thermal systems (in the number, combined with classical electrical and gaseous boilers) of production, storage (accumulation) and supply of heat energy for agro-industrial objects (green houses, elevators, fruits and vegetables store, cow farms, pork farms, poultry farms).
The specific projects of the CTSPE - Program are detailed below:

1. Concentrated solar thermal systems (in the number, combined with classical electrical and gaseous boilers) of production, storage (accumulation) and supply of heat energy for residential houses;
2. Concentrated solar thermal systems (in the number, combined with classical electrical and gaseous boilers) of production, storage (accumulation) and supply of heat energy for agro-industrial objects (green houses, elevators, fruits and vegetables store, cow farms, pork farms, poultry farms).

Next Generation Molecular Power Engineering (NGMPE):
The Next Generation Molecular Power Engineering (NGMPE) Program focuses research, development, and deployment projects and activities in the next technology areas: Hydrodynamic molecular surface tension pumped storage (STPS) technologies and equipment for hydro-accumulation and electric power production; Electrokinetic’s induced electric power (EKIP) technologies and equipment for direct receipt of electric current by constant renovation of electrical double layer (EDL) on the interface of two phases with the aid of weak flows of water; Integration of electrokinetic’s induced electric power (EKIP) technology and surface tension pumped storage (STPS) technology to create molecular technologies and equipment for direct electric current production; Accumulators based on molecular hydrodynamic and electrokinetic’s technologies of loading (Surface Tension Capillary Pumped Еlectrokinetic Charging - CPELС); Fast air molecules induced electric current (FAMIC) – technology and equipment.
The specific projects of the NGMPE - program are described below:

1. Research and development of hydrodynamic molecular surface tension technologies and equipment for hydro-accumulation and electric power production with the use of surplus of energy of molecules on the surface of liquid phase. The creation of the surface tension pumped storage hydroelectric power plant (STPS HPS).
2. Research and development of molecular electrokinetic’s technologies and equipment for induced electric power production with the use of weak streams of water. The creation of the electrokinetic’s induced power (EKIP) plant.
3. The integration of molecular surface tension pumped storage (STPS) technology and electrokinetic’s induced power (EKIP) technology for direct electric current production.
4. Research and development of the offshore and seashore capillary pumped electrokinetic’s power plants.
5. Research and development of the accumulators based on molecular hydrodynamic and electrokinetic’s technologies of loading (Surface Tension Capillary Pumped Еlectrokinetic Charging - CPELС).
6. Research and development of molecular magnet-hydrodynamic (MHD) technologies and equipment of direct production of electric current in electrolyte, that moves across magnet field lines.
7. Research and development of the Molecular wind system of electric current production, based on multistage collision step ionization of active working medium under action of the fast air molecules (Fast Air Molecules Ionization Induced Current - FAMIIC Technology);
8. Research and development of the Molecular wind thermoelectrical FAMIT (Fast Air Molecules Induced Thermoelectricity) - technologies and equipment of electric current production, based on the extraction of kinetic energy of fast air molecules by active thermoelectric FAMIT (Fast Air Molecules Induced Thermoelectricity) - structure and transforming it into thermo-EMF;
9. Research and development of the Molecular sorption wind system of electric energy production, based on the phenomenon of complete or partial sorption of fast molecules of gas air mixture by FAMSIC (Fast Air Molecule Sorption Induced Current) - structure.

Coherent Solar Power Engineering (CSPE): The Coherent (Solar) Power Engineering (CSPE) Program focuses research, development, and deployment projects and activities in two technology areas: Coherent gas discharge photovoltaic technologies and systems with laser amplification of photoelectric current (LAPEC) in optical resonator by means of creation of quantum-electronic avalanche in gaseous medium; Coherent semiconductor photovoltaic technologies and systems with laser amplification of photoelectric current (LAPEC) in optical resonator by formation of quantum-electronic avalanche.
The specific projects of the CSPE - Program are detailed below:

1. Research and development of Coherent gas discharge photovoltaic technologies and systems with laser amplification of photoelectric current (LAPEC) in optical resonator by formation of quantum-electronic avalanche in gaseous medium under action of high intensity solar radiations focused by plated waveguide holographic concentrator;
2. Research and development of Coherent semiconductor photovoltaic technologies and systems with laser amplification of photoelectric current (LAPEC) in optical resonator by formation of quantum-electronic avalanche under action of high intensity solar radiations focused by plated waveguide holographic concentrator.

The Molecular Power Engineering Program is focused on achieving cost parity and production levels necessary for market penetration of advanced molecular, coherent in the number, technologies. The Purpose of this Program is to develop manufacturing processes that enable to begin commercial production within the 2012-2015 timeframe.

The program of the researches combines the advances of the renewable energy industry, the research organizations and the leading universities. The university researchers must be involved into developments of new materials and technologies that will stimulate the next generation of renewable energy systems. The leading role in the realization of named problems is posed on the Laboratories Structures. The net result is a very healthy, growing renewable energy industry that is supported in critical areas by state programs. All projects are selected through a competitive process. The goals of the renewable energy Programs are market-oriented.

Selected Publications:
1. Rebrin Y.K., Sidorov V.I. Optical mechanical and holographic deflectors // Results in Science and Technology. Radio Engineering. Vol. 45. - Moscow: VINITI, 1992. - 252 p. (Ребрин Ю.К., Сидоров В.И. Оптико-механические и голографические дефлекторы// Итоги науки и техники. Сер. Радиотехника. - М.: ВИНИТИ, 1992. - 252 с.)
2. Rebrin Y.K., Sidorov V.I. Optical Deflectors. Kiev: Tékhnika, 1988. - 136 p. (Ребрин Ю.К., Сидоров В.И. Оптические дефлекторы. - Киев: Тех¬ніка, 1988. - 136 с. )
3. Rebrin Y.K., Sidorov V.I. Holographic units of control of an optical ray. – Kiev: KHMAES, 1986. - 124 pp. (Ребрин Ю.К., Сидоров В.И. Голографические устройства управления оптическим лучом. - Киев: КВВАИУ, 1986. - 124 с. )
4. Rebrin Y.K., Sidorov V.I. Piezoelectric multielement units of control of an optical ray. – Kiev: KHMAES, 1987. - 104 pp. (Ребрин Ю.К., Сидоров В.И. Пьезоэлектрические многоэлементные устройства управления оптическим лучом. - Киев: КВВАИУ, 1987. - 104 с.)

Within 1975…1882 I translated from English into Russian 4 books that were edited by «MIR» Publisher, Moscow:
1. Advances in Image Pick-up and Display by B. Kazan. Vol.1. - Academic Press, Inc. N.Y., 1974.
2. Advances in Image Pick-up and Display by B. Kazan. Vol.2. - Academic Press, Inc. N.Y., 1975.
3. Advances in Image Pick-up and Display by B. Kazan. Vol.3. - N.Y.: Academic Press, Inc., 1976.
4. Sol Sherr. Electronic displays. – N.Y.: John Willey&Sons, 1979.




Litvin Anna - responsible administrator of Queltanews Office 


Education:

Bachelor, in Social pedagogics and practical psychology, Nizhyn state university after Mykola Gogol (2003-2006)
Specialist, Social pedagogics and practical psychology, Nizhyn state university after Mykola Gogol (2006-2007)

Experience:

Administrator in HR, Nizhyn Laboratories of Scanning Devices, LTD (2006-2008)
Chief of HR department, Nizhyn Laboratories of Scanning Devices, LTD (from 2008)

E-mail: book363@ukr.net





 


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