It is carried out on a thermodynamic basis using PC "Selector-C" for solving a wide range of tasks, including:

  • evaluation of different catagenesis degree types of DOM of potentially oil and gas horizons (OGH);
  • identification of DOM oil-production potential in a wide range of depths and RT conditions;
  • modeling of oil and gas formation processes with identification of hydrocarbon generation foci of different phase and component composition (analog of basin modeling);
  • study of the phase and component composition evolution of hydrocarbon systems in migration paths and accumulation zones;
  • evaluation of thermodynamic conservation conditions of hydrocarbon accumulation systems;
  • creation of thermodynamically equilibrium multi-reservoir models: DOM-rock-gas-solution at different R-T conditions and depths;
  • identification of the volume ratio of generated liquid and gaseous hydrocarbons, as well as their group and component composition in heterogeneous systems;
  • study of litho-gas-geochemical processes in the dispersion halos over hydrocarbon accumulations (the solution of the direct problem of oil and gas geochemistry);
  • development and justification of new geochemical criteria and indicators of oil and gas habitat in new poorly studied regions; 
  • development of models of thermodynamically equilibrium systems: "rock-solution-HC fluid" in the reservoir during the development of oil and gas fields;
  • assessment of the impact of drilling fluids of different composition on reservoir rocks and edge water;
  • modeling of hydrate formation processes and degradation of frozen rocks in the sedimentary section of oil and gas fields.
Change in composition of gases

Change in composition of gases

Графики изменения эманаций ртути над залежью УВ

Модель литогазогеохимических процессов в зоне влияния залежей УВ

Схема многорезервуарной модели в нефтегазообразования

Схема многорезервуарной модели в нефтегазообразования