Thermodynamic calculation of chemical interaction

A universal method for determining the equilibrium composition of systems of any complexity

There is no limit on the number of components

Wide range of condition parameters
(temperature, pressure, number of components)

What it gives:

Calculation of the composition of a multicomponent system for any condition parameters

The effect of the initial composition of the system on its final state

For whom:

For scientific research

Calculation of the chemical composition of any multicomponent system in a wide range of state parameters

Forecasting the composition and properties of the system

Saving time and resources for conducting experiments

To improve technological processes and create new ones

Study of the chemistry of the process and provide information about all phase and chemical transformations

Study of the degree of influence of various parameters (pressure, temperature, concentration, chemical composition) on the process

Optimization of the process according to the necessary parameters

Development of new technological processes

Calculation variants:

Calculation of the influence of temperature

Determination of the equilibrium composition of the system at any temperature. Allows you to determine the dependence of the composition on temperature.

Calculation of the pressure effect

Determination of the equilibrium composition of the system at any pressure. Allows you to determine the dependence of the composition of the gas phase on pressure.

Calculation of the impact of any component

Determination of the equilibrium composition of systems consisting of any components. Allows you to determine the dependence of the final composition on the presence and concentration of any constituent substances.

Examples of calculations

Influence of temperature

The result of calculating the effect of temperature on the phase-chemical composition of the system is presented. The process of synthesis of phosphor composition is described.

The effect of concentration

The result of calculating the dependence of the final composition of the system on the amount of one of its initial components is presented

Calculation of solutions

The effect of the concentrations of the components of an aqueous solution on the temperature dependences of the solubility of magnetite