RU2221155C2 - Combination cycle generating plant (versions) - Google Patents

Abstract

FIELD: power engineering. SUBSTANCE: invention relates to sphere of power generation in combination cycle. Residue of oil refining under atmospheric pressure obtained by refining of oil in atmospheric pressure refining device is subjected to refining under vacuum in vacuum refining device at preset conditions to be separated after refining into light substance and vacuum refining residue. Light substance is fed for use as fuel in gas turbine. Vacuum refining residue is fed for use as fuel in boiler of steam turbine power generating section together with high-temperature waste gas getting out of gas turbine so that steam turbine can be set into operation by steam generated in boiler and generate energy in steam turbine energy generating section. Residue of atmospheric pressure oil refining can be used as fuel for gas turbine and boiler to increase efficiency of power generation in combination cycle. EFFECT: increased efficiency of power generation. 14 cl, 8 dwg

Description

 Description text in facsimile form (see graphic part) m

Claims (30)

1. The combined cycle generating unit for driving a steam turbine by means of exhaust gas leaving the gas turbine, comprising a solvent extraction device for separating the residue from atmospheric oil distillation obtained by distillation of the supplied oil in an atmospheric distillation apparatus to a light substance, which is a deasphalted oil, and a heavy substance, which is an asphaltenes, extracted with a solution by means of a hydrodemetallization unit for removing metals that are present in a light substance obtained in a solvent extraction device, a gas turbine generating section equipped with a gas turbine and designed to be able to drive a gas turbine using a light substance processed in the unit for hydrodemetallization, as a fuel for it, a steam turbine generating section equipped with a steam turbine and a boiler section for generating steam for driving steam howling turbine, the boiler section is designed so as to generate steam using high temperature exhaust gas discharged from the gas turbine, and the heavy material obtained in an apparatus for extracting solvent as a heat source for it. 2. The combined cycle generating unit according to claim 1, wherein the asphaltenes obtained in the solvent extraction device are pulverized and mixed with water, resulting in a slurry, the slurry thus obtained is used as fuel for the boiler section of the steam turbine generating section. 3. The combined cycle generating installation according to claim 1 or 2, in which the boiler section includes a waste heat recovery boiler and a boiler in which fuel is burned, while the high-temperature exhaust gas exiting the gas turbine is used as a heat source for the recovery boiler waste heat and a heavy substance is used as a heat source for a boiler in which fuel is burned. 4. The combined cycle generating installation according to claim 3, in which the steam turbine generating section includes a first steam turbine generating section for driving a steam turbine with steam generated in the waste heat recovery boiler, and a second steam turbine generating section for driving the steam turbine with steam, generated in a boiler in which fuel is burned. 5. A combined cycle generating unit for driving a steam turbine by means of exhaust gas leaving a gas turbine, comprising a first separation device formed by a vacuum distillation device for separating the residue from atmospheric oil distillation obtained by distillation of the supplied oil in the device for distillation under atmospheric pressure, into a light substance and a heavy substance by distillation under vacuum, a second separation device, construct so as to further separate the heavy substance obtained in the first separation device into a light substance and a heavy substance using any of the devices — solvent extraction devices to extract the heavy substance with solvent, thermal cracking devices to thermally crack the heavy substance and hydrocracking devices for cracking a heavy substance by reacting it with hydrogen, a gas turbine generating section equipped with a gas tour a bin and designed to be able to drive a gas turbine using a light substance obtained in the first separation device and a light substance obtained in the second separation device as fuel for it, a steam turbine generating section provided with a steam turbine and a boiler section for generating steam for driving a steam turbine, the boiler section being designed to produce steam using high temperature exhaust gas from oic turbine, and heavy material obtained in the second separation device, as a heat source for it. 6. The combined cycle generating apparatus according to claim 5, wherein one of the substances is a light substance obtained in a first separation device and a light substance obtained in a second separation device is used as a main fuel for a gas turbine, and the other is used as auxiliary fuel for her. 7. The combined cycle generating unit according to claim 5, wherein the asphaltenes obtained in the solvent extraction device are pulverized and mixed with water, resulting in a slurry, the slurry thus obtained is used as fuel for the boiler section of the steam turbine generating section. 8. The combined cycle generating installation according to any one of claims 4 to 7, wherein the boiler section includes a waste heat recovery boiler and a boiler in which fuel is burned, while the high-temperature exhaust gas leaving the gas turbine is used as a heat source for the boiler waste heat recovery unit, and a heavy substance is used as a heat source for a boiler in which fuel is burned. 9. The combined cycle generating installation of claim 8, wherein the steam turbine generating section includes a first steam turbine generating section for driving a steam turbine with steam generated in a waste heat recovery boiler, and a second steam turbine generating section for driving a steam turbine with steam, generated in a boiler in which fuel is burned. 10. The combined cycle generating installation according to claim 5, wherein one of the devices is a first separation device and a second separation device, formed by a separation device selected from the group consisting of catalytic cracking device, thermal cracking device and device for hydrocracking, while part of the light oil obtained in the separation device is used as gasoline, kerosene or diesel fuel. 11. A combined cycle generating unit for driving a steam turbine by means of exhaust gas leaving the gas turbine, comprising a first separation device formed by a hydrocracking device for separating the residue from atmospheric oil distillation obtained by distillation of the supplied oil in the distillation device under atmospheric pressure, into a light substance and a heavy substance by hydrocracking, a second separation device formed by a device for for catalytic cracking to further separate the heavy substance obtained in the first separation device into light substance and heavy substance by catalytic cracking, a gas turbine generating section equipped with a gas turbine and designed to be able to drive a gas turbine using a light substance, obtained in the first separation device, and a light substance obtained in the second separation device, as a fuel for it, a steam turbine a section equipped with a steam turbine and a boiler section for generating steam for driving a steam turbine, the boiler section being designed to generate steam using high-temperature exhaust gas leaving the gas turbine and the heavy substance obtained in the second separation device, as a heat source for her. 12. The combined cycle generating apparatus of claim 11, wherein one of the substances is a light substance obtained in the first separation device and a light substance obtained in the second separation device is used as the main fuel for a gas turbine, and the other is used as auxiliary fuel for her. 13. The combined cycle generating installation according to claim 11 or 12, in which the boiler section includes a waste heat recovery boiler and a boiler in which fuel is burned, while the high-temperature exhaust gas exiting the gas turbine is used as a heat source for the recovery boiler waste heat and a heavy substance is used as a heat source for a boiler in which fuel is burned. 14. The combined cycle generating installation of claim 13, wherein the steam turbine generating section includes a first steam turbine generating section for driving a steam turbine with steam generated in a waste heat recovery boiler, and a second steam turbine generating section for driving a steam turbine with steam, generated in a boiler in which fuel is burned. 15. The combined cycle generating installation of claim 11, wherein one of the devices is a first separation device and a second separation device, formed by a separation device selected from the group consisting of catalytic cracking device, thermal cracking device, and device for hydrocracking, while part of the light oil obtained in the separation device is used as gasoline, kerosene or diesel fuel. 16. A combined cycle generating unit for driving a steam turbine by means of exhaust gas leaving a gas turbine, comprising a first separation device formed by a thermal cracking device for separating a heavy substance obtained by distillation of a feed oil in an atmospheric distillation apparatus, into a light substance and a heavy substance by thermal cracking, a second separation device formed by a device for distillation under by a cume for further separation of the heavy substance obtained in the first separation device into a light substance and a heavy substance by vacuum distillation, a gas turbine generating section equipped with a gas turbine and designed to be able to drive a gas turbine using the light substance obtained in the first separation device and the light substance obtained in the second separation device, as a fuel for it, a steam turbine generating section provided a steam turbine and a boiler section for generating steam for driving a steam turbine, the boiler section being designed to generate steam using high-temperature exhaust gas leaving the gas turbine and the heavy substance obtained in the second separation device as a heat source for her. 17. The combined cycle generating apparatus of claim 16, wherein one of the substances is a light substance obtained in a first separation device and a light substance obtained in a second separation device is used as a main fuel for a gas turbine, and the other is used as auxiliary fuel for her. 18. The combined cycle generating installation of claim 16 or 17, wherein one of the devices is a first separation device and a second separation device, formed by a separation device selected from the group consisting of a catalytic cracking device, a thermal cracking device, and hydrocracking devices, and part of the light oil obtained in the separation device is used as gasoline, kerosene or diesel fuel. 19. The combined cycle generating installation according to any one of claims 16-18, wherein the boiler section includes a waste heat recovery boiler and a boiler in which fuel is burned, while the high-temperature exhaust gas exiting the gas turbine is used as a heat source for the boiler waste heat recovery unit, and a heavy substance is used as a heat source for a boiler in which fuel is burned. 20. The combined cycle generating unit according to claim 19, wherein the steam turbine generating section includes a first steam turbine generating section for driving a steam turbine with steam generated in the waste heat recovery boiler, and a second steam turbine generating section for driving the steam turbine with steam, generated in a boiler in which fuel is burned. 21. A combined cycle generating unit for driving a steam turbine by means of exhaust gas leaving a gas turbine, comprising a first separation device formed by a vacuum distillation device for separating the residue from atmospheric oil distillation obtained by distillation of the supplied oil in the device for distillation under atmospheric pressure into a light substance and a heavy substance by distillation under vacuum, a second separation device is formed catalytic cracking apparatus for further separating the light substance obtained in the vacuum distillation apparatus into light substance and heavy substance using a catalyst by means of catalytic cracking, a gas turbine generating section equipped with a gas turbine and designed to be able to drive a gas a turbine using a light substance obtained in a second separation device as a fuel for it, a steam turbine generating section, equipped with a steam turbine and a boiler section for generating steam for driving a steam turbine, the boiler section being designed to generate steam using high-temperature exhaust gas leaving the gas turbine and the heavy substance obtained in the first separation device as a source heat for her. 22. The combined cycle generating unit of claim 21, further comprising a hydrotreating device for performing desulfurization by a reaction using hydrogen, the light substance obtained in the vacuum distillation apparatus is subjected to desulfurization in a hydrotreating device and then catalytically cracked in a catalytic cracking. 23. The combined cycle generating installation according to paragraphs 21 and 22, in which the boiler section includes a waste heat recovery boiler and a boiler in which fuel is burned, while the high-temperature exhaust gas exiting the gas turbine is used as a heat source for the recovery boiler waste heat and a heavy substance is used as a heat source for a boiler in which fuel is burned. 24. The combined cycle generating installation of claim 23, wherein the steam turbine generating section includes a first steam turbine generating section for driving a steam turbine with steam generated in a waste heat recovery boiler, and a second steam turbine generating section for driving a steam turbine with steam, generated in a boiler in which fuel is burned. 25. The combined cycle generating installation according to claim 21 or 22, wherein one of the devices is a first separation device and a second separation device, formed by a separation device selected from the group consisting of catalytic cracking device, thermal cracking device, and hydrocracking devices, and part of the light oil obtained in the separation device is used as gasoline, kerosene or diesel fuel. 26. The combined cycle generating installation according to claim 21, wherein the boiler section includes a waste heat recovery boiler and a boiler in which fuel is burned, high temperature exhaust gas leaving the gas turbine is used as a heat source for the waste heat recovery boiler, the substance is used as a heat source for a boiler in which fuel is burned. 27. The combined cycle generating installation of claim 26, wherein the steam turbine generating section includes a first steam turbine generating section for driving a steam turbine with steam generated in the waste heat recovery boiler, and a second steam turbine generating section for driving the steam turbine with steam, generated in a boiler in which fuel is burned. 28. The combined cycle generating installation of claim 21, wherein a portion of the light oil obtained in the catalytic cracking device, which is the second separation device, is used as gasoline, kerosene or diesel fuel. Priority on points: 07/03/1998 according to claims 1, 2, 5, 7, 16 and 21; 01/19/1999 according to claims 3, 4, 6, 8-15, 17-20 and 22-28.

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