Research & Studies

1. Implementation of pilot projects of increasing oil recovery in oil fields.

2. Introduction of enhanced oil recovery methods in oil fields.

3. Treatment of wellbore zone of low productive reservoir formations.

4. Development of problematic hydrocarbon reserves with integrated technology of mobile address impact.

5. Physical and chemical methods of enhanced oil recovery in process of building a discrete-continuous models.

6. Repair and isolation of wells with use of organic-silicon compounds.

7. Method of development of multilayer oil reservoir.

8. Development of hard-to-recover oil reserves by sidetracking, using integrated approach.

9. Integrated technology of mobile address impact.

10. Temporary isolation of reservoir interval.

11. Restoration of production casing integrity by plugging to develop a residual oil.

12. Well killing maintaining reservoir properties.

13. Ways of improving the technology of repair and isolation works in oil fields.

14. Improved methods of conducting tracer studies to improve control over development.

15. Assessment of enhanced oil recovery methods quality, based on hydrodynamic studies and modeling techniques by using “Eclipse” software.

16. Improved methods of conducting tracer studies based on aggregation of remote methods.

17. Stimulation in the field.

18. Analysis of repair and isolation effectiveness prior to the fracturing.

19. Diagnosis of high-permeable filtering channels in development of natural and man-made fractures by analyzing well performance data.

20. Organization of vertical oil displacement to increase efficiency of residual oil recovery.

21. Analysis of re-fracturing effectiveness.

22. Forecasting rock stress on GIS data.

23. Imitational interference study and new possibilities of tracer test.

24. Hydrodynamic studies after fracturing to determine the optimal development parameters.

25. Hydrodynamic methods use to detect man-made reservoir fracturing.

26. Geological and geophysical data use to identify natural and man-made reservoir fracturing.

27. Geological analysis of geodynamic stress and fluid flows in oil fields.

28. Geological, and technological prerequisites to changes in productive formations and ways to increase the recovery factor at late stage of development.

29. Comparative assessment of horizontal and directional wells on basis of tracer studies.

30. Comprehensive analysis of hydrodynamic, geological and geophysical data to identify conditions for man-made reservoir fracturing.

31. Integration of hydrodynamic studies to identify optimal parameters for reservoir development.

32. Analysis of water injection modes to identify optimum discharge pressures.

33. Conducting tracer studies in oil fields in terrigenous and carbonate collectors.

34. Comprehensive wellbore zone treatment.

35. Effect of water injection modes to terrigenous reservoir filtration and capacitive properties (FCP).

36. The effectiveness of hydraulic fracturing, depending on reservoir FCP.

37. Determination of natural fracturing of formation on basis of remote methods existing data.

38. Methods selection for studies of oil reservoirs.

39. Selecting approach to special geological structure and stage of development in determining optimal set of integrated EOR.

40. Integrated methods of enhanced oil recovery at late stage of field development.

41. Intensification of well performance by complex wellbore zone treatment of low-permeability reservoirs.

42. Effects of integrated wellbore zone treatment in low-permeability reservoirs.

43. Integration of geological and production data for effective application of integrated EOR at late stage of field development.

44. Effectiveness assessment of flow diverting technologies based on the results of tracer studies.

45. Integrated methods of enhanced oil recovery use at late stage of field development.

46. Comprehensive hydrodynamic (tracer) and remote studies for monitoring of flooding process.

47. Optimizing flooding system on basis of integrated interpretation of geological, geophysical and tracer studies.

48. Methods of developing oil deposits.

49. Effectiveness of wellbore zone treatment by complex acid compositions using hydraulic vibration.

50. Determination of optimal combination of horizontal and directional wells for efficient field development according to tracer studies.

51. Control of reserves drainage based on aggregation of tracer studies definition of optical properties of fluid.

52. Correction of field development process on basis of complex hydrodynamic (tracer) and remote studies.

53. Determining optimal set of enhanced oil recovery integrated methods for special geological structures and stages of development.

54. Forecast stress of formation rock by GIS data.

55. Forecast stress of formation rock according to mathematical modeling.

56. Influence of flood waters temperature to oil recovery.

57. Influence of injected water type to oil recovery.

58. Control of oil drainage on basis of aggregation of tracer studies results and defining optical properties of fluid.

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Samartseva str., 18 
Russia, Tyumen city, 625046
OGRN 1098601000849
INN 8601038324
Phone.: +7 (3452) 329-178, 317-603
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