Chemical Petroleum Technology
Chemical Concern - Halfrid
2003 A group of scientists from D.Mendeleev University of Chemical Technology of Russia finds the effect of hydrocarbon media cross-linking. 2004 Fuel activator of the first generation developed. First pilot tests of the product conducted.
2005 Mathematical model of the substance activation process built.
2006 First large-scale commercial testing at the power generation facilities conducted. Fuel activator of the second generation developed. Water-based activator of the first generation developed. Technical specifications for production of hydrocarbon-based activators received.
2007 Fuel activator of the third generation and activators complying with the requirements for food products developed.
2008 Commercial production of the activators in the city of Biysk, Altai Area organized.
2009 Fuel and water-based activators of the fourth generation developed. New technical specifications for the production in zelenograd received.
The technology is based on the principle of quantum resonance created in fluid and gaseous substances by the activators.
The activator is a composition of organic compound that consists of the following:
• chemically inert active substance (know-how)
• solvent (the basic active substance transfer function)
• additive (protection function)
The active substance causes stable water structuring due to development of quantum and resonance effects and production of complex molecular clusters of 20-30 nm. Such structured substance transfers itself in a special phase condition which substantially changes its physic and chemical characteristics.
Fluid and gas activation is performed by dispersion through the dosage pump.
Burning Process- the presence of activators increases the intensity of fluid oxidation and the completeness of combustion. It also represses the production of side products of partial oxidation.
Heating Equipment- The activators has the ability to increase the useful work of the working substance (e.g. gas) as well as to increase the heat emasson in heat exchange systems.
Cracking and Pyrolysis System- the activators increase the reaction process speed due to the decrease of energy expenditure for production of free radical.
Diffusion and Catalytic Processes- the activators enable to speed up these processes, including the speed of membranous penetration.
Liquids under Pressure- the activators decrease the kinematic viscosity of liquids.
Biological Processes- water processed by the activator turns into a powerful growth-promoting factor. The environment treated by the activator shows bactericidal and strong washing off features.