TH61551B - Method for removing carbon dioxide from fluid streams and fluid splitter assemblies. - Google Patents

Abstract

DC60 (17/03/60) This invention involves a method for removing carbon dioxide from a fluid stream by Separate fluid assembly Separate fluid assembly with cyclonic fluid separator With the isthmus section A pipe shape arranged between a converged fluid inlet and a flared fluid outlet. And swirl production equipment The sorting wessel has pipe-shaped sections positioned on and connected. With the storage tank in this method, a subsequent flow of carbon dioxide is provided, thereby allowing the fluid to be moved in a vortex in order to induce an outward motion and then expand the fluid current. Spiral To form carbon dioxide components in a stable state Metadata within the fluid stream, then intercept the outward-directed fluid stream containing the Carbon dioxide from the cyclonic fluid separator And organize the flow of fluid directed outside To be mixed for Wessel for sorting And then guide the mixture through the tubular section to the storage tank. At the same time, conditions for processing of carbon dioxide are also provided. Which was then solidified in the last order Extraction of solid carbon dioxide corrected 17/03/2017 This invention involves a method for removing carbon dioxide from a fluid stream by Separate fluid assembly Separate fluid assembly with cyclonic fluid separator With the isthmus section A pipe shape arranged between a converged fluid inlet and a flared fluid outlet. And swirl production equipment The sorting wessel has pipe-shaped sections positioned on and connected. With the storage tank in this method, a subsequent flow of carbon dioxide is provided, thereby allowing the fluid to be moved in a vortex in order to induce an outward motion and then expand the fluid current. Spiral To form carbon dioxide components in a stable state Metadata within the fluid stream, then intercept the outward-directed fluid stream containing the Carbon dioxide from the cyclonic fluid separator And organize the flow of fluid directed outside To be mixed for Wessel for sorting And then guide the mixture through the tubular section to the storage tank. At the same time, conditions for processing of carbon dioxide are also provided. Which was then solidified in the last order Extract the solid carbon dioxide ---------------------

Claims (1)

Disclaimer (all) which will not appear on the advertisement page: Amendment 10 August 2017 page 3. 9. Method of Clause 1 where the said rotation production equipment will be included. The impeller provides a certain number of swirls 1 0. Method according to claim 9, where the propeller provides a certain number of such swirls is arranged. Its position is in the isthmus part 1 1. Method of claim 9, where a certain number of the aforementioned propeller is provided. Its position is in the said entrance part 1 2. Method according to claim 1, where the internal surface of the parts of the separate assembly Exposed and exposed fluids are provided with a non-adherent coating 1 3. Method according to claim 1, where such arrangement is the outward-directed fluid flow. The above was prepared by Wessel for the sorting through the second entryway. In such a way that there is a contact fluid flow 1 4. An assembly for separating fluid for removing carbon dioxide from the flow of Flow, in which the fluid separator assembly is included - cyclonic fluid separator Which includes The isthmus is arranged between The inlet of convergent fluid and part of the flared-out fluid outlet. And production equipment A vortex that has been configured to create a vortex motion of a fluid that has Carbon dioxide inside at least part of this separation. In which the entrance part of the converged fluid Included One entrance for fluid components And which part of the fluid exit The door is included. The first solution is for the fluid in which the carbon dioxide is reduced and the second solution is for the carbon-rich reject fluid - Wessel for separation with a part connected to the reservoir. Which provided the said part with an entrance The second is connected to the aforementioned second outlet of the aforementioned cyclonic fluid separator and provides the reservoir with a third solution for the solidified carbon dioxide. Where the fluid separation assembly is provided for - receiving a flow of carbon dioxide-containing fluid at the aforementioned inlet, where the flow of that fluid is constituted by a percentage of CO by more than 10% mole - -------- EDIT 17/03/2017 1. Method for removing carbon dioxide from the fluid stream by the separation fluid assembly, which includes - a cyclonic fluid separator. Which includes Isthmus part arranged between sections Flow fluid inlet and Flared fluid outlet And rotation production equipment A vortex that has been configured to create a vortex motion of a carbon dioxide fluid. Within at least some part of the cyclonic fluid separator. In which the entrance part of the converged fluid Included One entrance for fluid components And which part of the fluid exit The door is included. The first solution is for the fluid in which the carbon dioxide is reduced and the second solution is for the carbon-rich reject fluid - Wessel for separation with a part connected to the reservoir. Which provided the first part thereof A second inlet is connected to the aforementioned second outlet of the cyclonic fluid separator and provides the reservoir with a third outlet for solidified carbon dioxide. Which this method includes. - Arrangement of the flow of fluid at the one entrance. In which the aforementioned fluid flows Total percentage carbon dioxide by more than 10% mole - eddy current motion. In order to induce Concentrated outside of at least one type of condensed component and The solidified component within the fluid stream at the end of the device produces the vortex. And to form an outward-directed fluid flow Where the flow of fluid reaches the speed Sound or supersonic - amplification of the eddy current. In order to form the carbon dioxide component that has been Liquide in a meta-stable state within the fluid stream. And will induce Outwardly moving the carbon dioxide component thereof in the Such meta-stable state under the influence of the aforementioned vortex motion - extraction of the outward-directed fluid currents consisting of components of The carbon dioxide in the aforementioned meta-stable state is separated from the The cyclonic fluid passes through the aforementioned second solution - such extraction outward-directed fluid flows are mixed. To Wessel for the sorting through the aforementioned second entrance - the navigation of the mixture through the first part of the said separation Wessel. Also such storage tanks At the same time, the process conditions for the first part are in place. The manner in which the solidified carbon dioxide is formed from the components of the Such meta-stable carbon dioxide in the aforementioned meta-stable state - extraction of solidified carbon dioxide through said third solution 2. Method of claim 1, where part one The aforementioned Wessel for sorting is also provided. With the fourth exit as well And the above method is supplemented by extraction. The carbon dioxide component is reduced through the fourth solution. 3. Method of claim 1, where the containment tank is additionally provided. And the aforementioned methods include additional Liquid extraction of Hydrocarbons are passed through the fifth solution. 4. Method of claim 1, where Wessel for separation is additionally incorporated. With a cooling handle that is configured to provide the specified temperature conditions in it. Such temperature conditions enable solidification of carbon-rich fluids. 5. Method of claim 1, where the fluid separation assembly is also assembled. Also included The volute is connected to the aforementioned third outlet, and the extraction of the solidified carbon dioxide is performed by means of the releasing transport. 6. Method for claim 1, where such expansion of the eddy current is In such a way that the flow of fluid reaches supersonic velocity. 7. Method of claim 6, where such expansion is also in an additional way that Temperature to temperatures below 200 degrees Kelvin 8. Method of claim 6, where the expansion is also in an additional way that The pressure reaches less than 50% of the pressure at the first inlet of the cyclonic fluid separator 9. Method according to claim 1, where the vortex generating equipment is included. The impeller provides a certain number of swirls 1 0. Method according to claim 9, where the propeller provides a certain number of such swirls is arranged. Its position is in the isthmus part 1 1. Method of claim 9, where a certain number of the aforementioned propeller is provided. Its position is in the said entrance part 1 2. Method according to claim 1, where the internal surface of the parts of the separate assembly Exposed and exposed fluids are provided with a non-adherent coating. 1 3. Method of claim 1, where such arrangement is the forward-directed fluid flow. The outside was mixed to Wessel for sorting through the second entrance. Prepared in such a way that there is a contact fluid flow 1 4. A fluid separation assembly for removing carbon dioxide from the flow of Flow, in which the fluid separator assembly is included - cyclonic fluid separator Which includes The isthmus is arranged between The inlet of convergent fluid and part of the flared-out fluid outlet. And production equipment A vortex that has been configured to create a vortex motion of a fluid that has Carbon dioxide inside at least part of this separation. In which the entrance part of the converged fluid Included One entrance for fluid components And which part of the fluid exit The door is included. The first solution is for the fluid in which the carbon dioxide is reduced and the second solution is for the carbon-rich reject fluid - Wessel for separation with a part connected to the reservoir. Which provided the said part with an entrance The second is connected to the aforementioned second outlet of the aforementioned cyclonic fluid separator and provides the reservoir with a third solution for the solidified carbon dioxide. Where the fluid separation assembly is provided for - receiving the flow of a fluid containing carbon dioxide at the aforementioned inlet, where the flow of the said fluid is constituting a percentage of CO by more than 10% mole - Provide the fluid flow in a circular motion In order to induce the motion Focused outside of at least one of the condensed and condensed components. Solidified then Within the fluid stream on the end side of the device produces a swirl. And to create Outwardly directed fluid flow Where the eddy current reaches the speed of sound or supersonic - the amplification of the eddy current. In order to form the carbon dioxide component that has been Liquide in a meta-stable state within the fluid stream. And will induce movement The outward-directed form of the aforementioned liquified carbon dioxide components in a stable state. The meta model under the influence of the eddy motion - extraction of the outward-directed fluid currents comprising such components. Of the carbon dioxide in the meta-stable state from the liquid separator. The cyclonic design passes through the aforementioned second solution - the extraction of the extraction outward-directed fluid flow as Mixture to Wessel for sorting through the aforementioned second entrance - the navigation of the mixture through the aforementioned section of the Wessel sorting. To the said storage tank At the same time, there is also a process condition in the first part. In such a way that the solidified carbon dioxide is formed out of the component This meta-stable state of liquide carbon dioxide can be extracted through a third solution. Where a number of the aforementioned rotors are positioned in the said inlet. And where the entrance The second of the aforementioned Wessel separator was provided for Wessel's circumferential contact for separation 1. 5. Separation fluid assembly in accordance with Clause 14, where the aforementioned Part One also provided. To have more with exit four The fourth solution has been configured to be able to extract Reduced carbon dioxide components 1 6. Fluid separation assembly according to claim 15, where such storage tanks are still available. With the fifth solution The fifth solution has been configured so that it can be extracted. Hydrocarbon Liquid Composition 1 7. Separation fluid assembly according to claim 14, where the separation Vessel. It also includes an additional cooling system that has been configured to provide a Of the temperature being set within it Which such temperature conditions can solidify the fluid that 1 8. Assembly for separating fluid according to claim 14, where the separate assembly The flow also includes additional. That released the spiral design Connected to the aforementioned third exit, which releases a spiral spiral design It has been configured so that it can be extracted. The solidified carbon dioxide is released through the aforementioned third exit by conveying 1 9. Fluid separation assembly according to claim 18, where the propeller provides a number of vortices. One of them is positioned in the isthmus section 2 0. Assembly for separating fluid according to claim 14, where the equipment produces swirling It consists of a number of rotors that provide a number of swirls. 1. Assembly for separating fluid according to claim 14, where the internal surface of the part Of the exposure and fluid separation assembly provides a non-stick coating. ------------------------------------------------