C H R O M A T O G R A P H Y

Chromatography - Hayrapetyan's Effect


3rd INTERNATIONAL SYMPOSIUM ON SEPARATIONS IN THE BIOSCIENCES

INTERNATIONAL SYMPOSIUM Analytical Forum 2004


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"It was not so difficult to invent a new basic technology of Chromatography - Chromabarography; it is rather difficult to wait for its wide practical use for the development of science in the benefit of mankind!"
Aram Hayrapetyan


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7
 facts of  superiority !

There are the best chromatographs in the world, the most modern technological elaborations, but there is not the one, which provides the maximum efficiency of the chromatographic column.

I have a lot of secrets in the field of chromatography!
One of them is the attainment of maximum possible efficiency of the chromatographic column (HAYRAPETYAN'S Effect).
It is provided with new basic technology of chromatography -
CHROMABAROGRAPHY (Russia patent "Chromatograph of A. S. Hayrapetyan").

The essence of the new basic technology of chromatography - chromabarography is the provision of the optimal conditions of the analysis by keeping unchanged the linear rate of an imaginary point - the zone of the sample moved in time by the carrier-gas from the inlet to the outlet of the chromatographic column, p being kept constant at its ends during the whole cycle of the analysis, by which a maximum column efficiency (Hayrapetyan's Effect) is attained.

What   is   Chromabarography?
The answer may be so:
Or . . . so:

The main advantages of the proposed technology in practical analysis may be generated in the form of the following propositions:

  1. Attainment of maximum possible efficiency of the column on account of providing the optimal conditions of the analysis by keeping unchanged the linear rate of an imaginary point - the zone of the sample moved in time by the carrier-gas from the inlet to the outlet of the chromatographic column;

  2. Reduction of analysis time for a wide range of mixtures, which allows to work with a shorter column (economy of solid support, liquid phase, column material) and at much lower temperatures (economy of electricity) for which the relative retention is generally high. Thus the best separation is attained without increasing the analysis time. This means an increase in the productivity of routine analyses and elaboration of chromatographic methods;

  3. Due to the fact that it is possible to work at lower temperatures (economy of electricity) the amount of the liquid phases used in the given analysis is increased. At the same time low working temperatures may become necessary for certain thermally unstable samples (increase in column service time);

  4. As the peak height is related with carrier-gas rate, wide peaks eluted later will be much sharper. This allows a better identification of low concentrations (increase in analysis accuracy);

  5. Attainment of symmetrical peaks also in case of nonlinear adsorption isotherm, as the rear of the band is at a higher pressure than the front;

  6. The substantial enrichment, the increase in concentration of the component in the center of the band is conditioned by the compression of the band both as a consequence of the moving pressure gradient compared with the initial sorption pressure, and as a consequence of the presence of the moving gradient of the optimal linear speed accompanying the band of components being analyzed from the inlet to the outlet of the chromatographic column during the while analysis cycle (increase in the efficiency of the separation of the components);

  7. The pressure of the gas in the column can be changed almost instantaneously and equilibrium can be attained in a very short time. Pressure re-regulation excludes the necessity of long "periods of cooling" of the column (express - analysis, economy of electricity), while temperature increase programming may either cause evaporation of the stationary phase, which "flies out" of the column, or destroy it chemically to various molecules, which also will soon come out by the carrier-gas. The repetitive cycles of heating and cooling may cause compression of solid support particles during expansion, followed by destruction (crumbling) during compression, which leads to a progressive change of permeability.

  • The maximum
    possible
    effectivity
    of the
    chromatographic
    column -
    Hayrapetyan's     Effect

 

 

 

 

 

 

 

  • The maximum possible effectivity of the chromatographic column     -   Hayrapetyan's     E ff e c t

  

All the rest - XX century.


P. S.

C h r o m a b a r o g r a p h y
A new step of effectivity,
A first - hand new technology.

Toward the new century with a new technology.

 


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