GTL Achievements

Since foundation, company JSC “GTL” is proud of its achievements and can successfully demonstrate a variety of technical solutions in the field of chemical utilization of natural gas and oil, processing of natural gas and individual gas fields, shale gas, sulfur and helium.

The uniqueness of the technology lies in the possibility of processing any gas with the release of a commercial product (high-octane gasoline, diesel fuel. methanol, ethanol, aromatic hydrocarbons).

Conversion of associated natural gas in the final product has a high profitability and efficiency, full automation of technological processes and their high environmental performance.

JSC “GTL” has developed the following projects (the list starts with the latest developments):

102. Methanol disengagement from aqueous-alcoholic solution of salt by the method of co-crystallization

101. Gas-hydrate method of sulfur-containing substances excreting from associated petroleum and natural gas

100.  Gas-hydrate method of carbon-dioxide excreting from associated petroleum and natural gas 

99. Work is in progress on creation of a prototype plant for gas production from gas hydrate field.

98. Developed a prototype for hydrogen sulphide and mercaptans from gas mixtures.   

97. Designed the reactor for direct synthesis of ethanol, propanol, butanol.

96. Carried out research in the field of thermochemical gas production from gas hydrate deposits.

95. Conducted research activities in the field of natural gas purification from hydrogen sulfide and mercaptans by forming gas hydrates.

94. Developing electrochemical fuel cell

93. Developed a membrane air separator used for the production of oxygen and nitrogen.

92. Developed information-measuring control system for direct synthesis of spirits and oxo compounds from natural gas.

91. Developed a reactor of direct synthesis of methanol and oxo compounds

90. Performed research works to identify chemical reaction speed of combined polymerization and oxidation to determine the energy balance of the process.

89. Developed technology of co-processing low-octane hydrocarbon fractions and lower spirits.

88. Conducting research in the field of direct synthesis of methanol and oxo compounds of natural or associated petroleum gas.

87. Performed research work on the determination of chemical reaction rate of the polymerization of methane, ethane, propane.

86. Developed method of extraction of radon from the gas mixture

85. Performed research and development work to determine the optimal design of a reactor with barrier discharge.

84. Developed a method of separating helium from a gaseous mixture.

83. Developed a method of direct synthesis of the 3-methyl-3-pentanol.

82. Submitted research and development work to determine the best method for applying a catalyst to the active surface of the reactor of direct synthesis of liquid hydrocarbons and alcohols.

81. Created, with partners, a unit of sulfur dioxide oxidation to sulfur trioxide and isolating the last from the gas stream by way of condensation under irrigation concentrated sulfuric acid.

80. Performed research and development work to determine the optimal parameters combination of two endothermic processes of chain elongation and the exothermic oxidation of olefins in a reactor of direct synthesis of liquid hydrocarbons and alcohols.

79. Together with partners prepared the decision to use the incinerator of all sulfur-containing components to sulfur dioxide.

78. Developed a method for the direct synthesis of isopropyl ether

77. Submitted research and development work for the preparation of terms of reference of the most effective source of the electric field in the reactor of direct synthesis of liquid hydrocarbons and alcohols.

76. Together with partners developed a recovery unit sulfur dioxide by methane to elemental sulfur, which consists of the thermal reduction apparatus and the two series set of catalytic reduction devices with output generated sulfur - the only product of the entire installation.

75. Submitted research and development work to optimize the action of the barrier discharge methane, ethane, propane, butane in the recombination of oxygen in the reactor of direct synthesis of liquid hydrocarbons and alcohols.

74. A method for the direct synthesis of butane.

73. Prepared by the decision unit capture and concentration of sulfur dioxide.

72. Created a block of dry and wet gas cleaning dust from the last capture and return to the metallurgical cycle.

71. Performed research and development work studying the patterns of elongation of the chain hydrocarbon in a reactor of direct synthesis of liquid hydrocarbons and alcohols.

70. Developed method of direct synthesis of hexylen glycol.

69. Created a highly efficient deaerator.

68. Submitted research and development work to determine the optimal parameters of the joint oxidation and polymerization reactions in the reactor of direct synthesis of liquid hydrocarbons and alcohols.

67. Catalysts developed for low-rate processing methane to ethylene wells.

66. Submitted research and development work of studying the properties of radical polymerization of butane in the reactor of direct synthesis of liquid hydrocarbons and alcohols.

65. A device for gas separation membranes in bipolar electric field superposition.

64. Developed method of direct synthesis of isopropyl alcohol.

63. Completed research and development study the properties of the polymerization radicals of propane in the reactor for direct synthesis of liquid hydrocarbons and alcohols.

62. Designed and developed a new generation of mechanical compressor.

61. Submitted research and development work of studying the properties of ethane radical polymerization in the reactor of direct synthesis of liquid hydrocarbons and alcohols.

60. Designed and developed ion-exchange polymer membrane to create a non-mechanical compressors of new generation.

59. We developed a method of direct synthesis of 4-hydroxy-4-methyl-2-butanol (diatsentovy alcohol).

58. Submitted research and development work is studying the properties of radical polymerization of methane in the reactor of direct synthesis of liquid hydrocarbons and alcohols.

57. A method of direct synthesis of 2-hexane.

56. Developed a method for compressing a gas by the gas flow in the unidirectional bipolar membranes according to the electric field.

55. Submitted research and development work to determine the optimal parameters of the activation of molecules in a gas discharge reactor of direct synthesis of liquid hydrocarbons and alcohols.

54. Developed a fully automated small-capacity gas processing plants.

53. A method for the direct synthesis of 2-butoxyethanol.

52. Submitted research and development work for the study of the microwave-discharge properties for possible use in a reactor of direct synthesis of liquid hydrocarbons and alcohols.

51. Developed a separator unit installation methanol chemistry

50. Developed a method for the direct synthesis of pivalic acid.

49. Developed a set of columns installation of methanol chemistry

48. Created block catalyst separator separator methanol chemistry installation.

47. Developed the unit pumps of the catalyst installation methanol chemistry

46. A method of direct synthesis of the 3-methyl-2-butanol.

45. Create blocks of raw capacity methanol chemistry installation

44. Developed a set of isothermal reactor installation methanol chemistry

43. Created block cooling water pumps installation of methanol chemistry

42. Developed method of direct synthesis of 2-pentanone.

41. Developed by the reactor processing of methanol to the installation of methanol chemistry

40. Created block separator installation of methanol chemistry

39. Developed direct synthesis method of butanol-2 (C4H8O).

38. Developed block flow of fuel furnace installation of methanol chemistry

37. Developed a furnace installation unit of methanol chemistry

36. Developed method of direct synthesis of isopropyl methyl ketone

35. Performed research and development work to study the properties of the barrier discharge with catalyst for possible use in the reactor of direct synthesis of liquid hydrocarbons and alcohols.

34. Developed a method of synthesis of 2- phenylethyl formate (HCOOCH2CH2C6H5).

33. Developed a setting of homogeneous metal-containing slag oxidation

32. Submitted research and development work for the study of the properties of barrier discharges for possible use in a reactor of direct synthesis of liquid hydrocarbons and alcohols.

31. Created reactors homogenous oxidation of methane-containing gas.

30. Submitted research and development work for the study of the properties of pulse discharges for possible use in a reactor of direct synthesis of liquid hydrocarbons and alcohols.

29. Developed a direct method for the synthesis of benzyl formate (HCOOCH2C6H5).

28. Developed new technology of producing liquid hydrocarbons from methane containing gas using the process of homogeneous oxidation

27. Performed research and development work to study the properties of arc-discharges for possible use in the reactor of direct synthesis of liquid hydrocarbons and alcohols.

26. The developed method of direct synthesis of isoamyl formate (HCOOCH2CH2CH(CH3)2).

25. Created condensation columns of low-energy vapors.

24. Submitted research and development work for the study of the properties of corona discharges for possible use in a reactor of direct synthesis of liquid hydrocarbons and alcohols.

23. Developed method of direct synthesis of formate isobutyl (HCOOCH2CH(CH3)2).

22. Designed column dust collection, cleaning the air from dust 99,9-100%

21. Submitted research and development work for the study of the properties of spark discharges for possible use in a reactor of direct synthesis of liquid hydrocarbons and alcohols.

20. Designed column of combined action

19. Developed a method for the direct synthesis of ethyl formate (HCOOC2H5).

18. Submitted research and development work to determine the optimum voltage electric field to generate a sufficient flow of electrons in the reactors of the direct synthesis of liquid hydrocarbons and alcohols.

17. Developed a method for the direct synthesis of methyl formate (HCOOCH3).

16. Developed static mixers that ensure the highest degree of homogenization

15. Submitted research and development work to determine the optimum parameters of gas discharge reactors in the direct synthesis of liquid hydrocarbons and alcohols.

14. Developed a method of direct synthesis of formic acid.

13. Developed a unique distillation columns.

12. Submitted research and development work is to determine the maximum energy deposition parameters for the processing of methane, ethane, propane, butane reactors direct synthesis of liquid hydrocarbons and alcohols.

11. Developed highly effective desorbers.

10. A method for the direct synthesis of acetone.

9. Submitted research and development work on the development of a catalyst with maximum efficiency to improve performance of the direct synthesis reactors, liquid hydrocarbons and alcohols.

8. Developed energy-saving, compact absorbers.

7. Creation of information-measuring installation of natural gas manages the oxidation system.

6. A method for the direct synthesis of acetaldehyde.

5. Submitted research and development work to determine the optimal parameters of pressure in the processing of methane, ethane, propane, butane reactors direct synthesis of liquid hydrocarbons and alcohols.

4. Create a batch vortex nozzle

3. Submitted research and development work to determine the parameters of the thermal activation of methane molecules, stage, propane, butane reactors direct synthesis of liquid hydrocarbons and alcohols.

2. Developed the method of natural and associated petroleum gas oxidation.

1. Created reactor for homogenous oxidation of natural and associated petroleum gas.

The development of innovative technologies is an ongoing process of "GTL", we aim to create a promising future projects!