TH67139B - Methods for separating carbon dioxide from fluid streams and fluid separation assemblies. - Google Patents

Abstract

DC60 (23/02/10) The invention relates to a method of the separation of carbon dioxide from the current. Fluid by fluid separation assembly The fluid separation assembly has a fluid-type separator. Cyclones with a tubular isthmus section are arranged between the fluid inlet deflection and the diverging fluid outlet and the gyroscope. The separation container has a pipe fitting part. On and connected to the tank inclusion in the method, a fluid stream with carbon Later, the eddy motion is sent into the fluid stream to make it travel outward. The subsequent eddy current is amplified by the carbon component. Dioxide in stable state - internal meta, the fluid flow is formed later, the outward fluid flow Outside containing carbon dioxide Extracted from a cyclone-type fluid separator and The mixture is supplied to the container. Separation of the mixture is subsequently passed through the ducts to the tank. Incorporate substances while providing process conditions where Hardened carbon dioxide is eventually formed, hard carbon dioxide is extracted. ------ 08/12/2017 ------ (OCR) page 1 of number 1 page invention summary. The invention involves a method of separating carbon dioxide from a current. Fluid by fluid separation assembly The fluid separation assembly has a fluid-type separator. Cyclones with a tubular isthmus section are arranged between the inlet portions of the fluid to each other and the The fluid outlet deflects each other and the gyroscope The separation container has a tube part. Is positioned on and connected to the tank in the method, carbon flow Later, the eddy motion is sent into the fluid stream to make it travel outward. The subsequent eddy currents expand in such a way that the carbon constituents. Dioxide in stable state - internal meta, the fluid flow is formed later, the outward fluid flow The carbon-containing exterior was extracted from the cyclone-type fluid separator and Arrange as a mixture into the separation container. The mixture was then passed through the tube to the tank. Incorporates substances while providing process conditions where hard carbon dioxide is finally formed, hardened carbon dioxide is extracted ------------

Claims (1)

Disclaimer (all) which will not appear on the advertisement page: Edit 20/12/2018 No disclaimer ---------- ------ 08/12 / 2017-- ---- (OCR) Page 1 of a number 6 pages. Disclaimer 1. Method of separation of carbon dioxide from fluid streams by The fluid separation assembly, which includes: - A cyclone fluid separator, which consists of an isthmus section arranged between The fluid inlet is diverted and the fluid outlet is diverted and the device generates The vortex is determined to create a vortex motion of a fluid that has carbon dioxide within it. Minimum part of the cyclone separator, in which the fluid inlet is diverted. It consists of one inlet for the fluid component and the fluid outlet. Apart consists of one order of solution for non-carbon dioxide fluids and Second solution for fluids with high carbon dioxide; - The separation vessel which has a primary connection to the collection tank, one of which It is provided with a second entrance that is connected to the aforementioned second exit of the separator. The cyclone, and the aggregate tank, is provided with a third outlet for Solid carbon dioxide, whereby the separation vessel is activated at the combined pressure and Temperatures which are at or in the region of the interstate cycle boundaries of vapor / liquid / solid. And the joint area of vapor / solid; The assembly methods include: - Arrangement of a fluid flow at the aforementioned entry, where such fluid flows Combined with carbon dioxide; - Causing a swirling motion into a fluid stream to make it move towards Outside of at least one of the condensation components and the solidified components inside the stream. Fluid next to the vortex generating device and to form an outward fluid stream; - Expanding the eddy currents, to form liquid carbon dioxide components. In a stable state - meta within the flow of the fluid, and it causes an outward motion of the Such liquid carbon dioxide components in a stable state - such meta under the influence of Of such a whirling motion; Page 2 of the number 6 - extraction of the outward fluid, which consists of components of Such liquid carbon dioxide in a stable state - such meta from the cyclone fluid separator. Through the aforementioned second exit; - Providing a stream of fluid to be extracted as a mixture into the separation vessel. Through the aforementioned second entrance; - the introduction of the mixture through one such part of the separation container to The tank, while providing one of the aforementioned process conditions in such a way that carbon Solid dioxide is formed from such liquid carbon dioxide components in a stable state - such meta; - formation of a solid layer of carbon dioxide on the feed side of the perforated screen, which consists of openings to the aggregate side; - The use of temperature and pressure conditions on the combined side of the perforated screen to Molten the carbon dioxide from the layer and collect the molten carbon dioxide through the openings. On the aggregate side 2. Method according to claim 1, wherein the aggregate side is activated at the temperature and Pressure at which carbon dioxide is liquid 3. Method of claim 2, wherein the temperature and pressure combined Liquid dioxide is selected from a range of 10 to 18 bar and -55 ํ to 0 ํ 4. Method of claim 1 to 3, where the feed side is activated at The first pressure and the aggregate side were activated at the second pressure, where the second pressure was Equal to or lower than the first pressure 5. Method according to any one of the preceding this clause, in which the separation vessel is operated at Pressure in the range 5 to 25 bar and temperature range -70 ํ to -90 ํ 6. Method of claim 1 to 5, in which the opening has an inlet size on the side Enter which is larger than the exit size on the aggregate side 7. Method according to claim 6, where the outlet size is approximately equal to or with Significantly smaller than the average grain size of solid carbon dioxide page 3 of the number 6 page 8. Method of one of the preceding claims, whereby the outlet fluid flows are extracted. Such separation vessels are arranged along the tangent to the circumference of one sequence, in such a way that a rotating flow in one sequence is produced. 9. Method according to one of the preceding claims. This, where one such part of the container The separation was continued with the fifth solution, and the method was further enhanced by extraction. The gas component does not contain carbon dioxide via the aforementioned fifth exit 1 0. Method according to claim 9, where the fifth exit is formed by a vortex finder, which consists of a vertical pipe. Significantly extends into one sequence through the upper part of the section. One in a downward direction, where the bottom end of the pipe is at a lower vertical position than the second inlet 1 1. Method of following one of the claims preceding this clause, whereby a Destroy swirl Between Part I and Collecting Bin 1 2. Method for one of the claims preceding this clause, whereby the collection bin is further provided. With a fourth solution, and the method is further combined with the extraction of the liquid components. Hydrocarbon through the aforementioned fourth solution 1. 3. Method of claim 12, where the hydrocarbon liquid component passes through The fourth solution is fed back to the cyclone separator 1 4. Method according to one of the preceding claims, where the separation container is assembled. This is further combined with a cooling arrangement that is determined to provide a pre-defined temperature condition in it, where such temperature conditions allow for the solidification of the fluid to be highly carbonized. 1 5. What is the method of claim? One of the preceding points, where the flow of the said fluid consists of Total with mole percent carbon dioxide greater than 10% 1 6. Method of one of the preceding claims, where the expansion of the fluid current Such eddy is possible in such a way that the eddy current reaches supersonic velocity 1 7. Method according to claim 16, where the expansion is further in such a way that To temperatures below 200 Kelvin Page 4 of Number 6 Page 1 8. Method of Claim No. 16 or 17, where such expansion is added in Characteristics reaching a pressure lower than 50% of the pressure at the first inlet of the cyclone-type fluid separator 1. 9. Fluid separation assembly for the separation of carbon oxides from the fluid stream, in which the separation fluid separator assemblies. Includes: - A cyclone-type fluid separator, which consists of an isthmus section arranged between The fluid inlet is diverted and the fluid outlet is diverted and the device generates The vortex is determined to create a vortex motion of the fluid containing at least some of the internal carbon dioxide of the separator, in which the fluid inlet is diverted together with the inlet. One order for the fluid component and the fluid outlet part diverge from each other. With the first solution for the non-carbon dioxide fluid and the second solution for the Flow has high carbon dioxide; - The separation vessel which has a primary connection to the collection tank, which is It is provided with a second inlet that is connected to the aforementioned second exit of the fluid separator. The cyclone type, and the aggregate tank, is provided with a third solution for carbon. Solid dioxide, where the separation vessel is activated at a combination of pressure and temperature at Or in the region of the cyclical boundary between the vapor / liquid / solid joint and the common Of vapor / solid; - Perforated sieve consisting of a feed side and a aggregate side, where the feed side is defined. Position to collect solid carbon dioxide And forms a layer of solid carbon dioxide on the feed side, the perforated sieve is further assembled with an opening to the aggregate side; Where the fluid separation assembly is arranged for: - receiving a fluid stream containing carbon dioxide at the aforementioned inlet; - causing a swirling motion into the fluid stream to make it move towards Outside of at least one of the condensation components and the solidified components inside the stream. Fluid next to the vortex generating device and to form an outward fluid stream; Page 5 of the number 6 - Expand the eddy currents, to form liquid carbon dioxide components in Stable state - a meta within the flow of the fluid, and causes an outward motion of the Such liquid carbon dioxide components in a stable state - such meta under the influence of Of such a whirling motion; - Extracts the outward flow of fluid which is made up of carbon components. The liquid dioxide in a stable-meta state from the aforementioned cyclone fluid separator. Through the aforementioned second exit; - Provide an outward fluid stream to be extracted as a mixture into the separation vessel. Through the aforementioned second entrance; - Take the mixture through one of the aforementioned part of the separation container to The tank, while providing one of the aforementioned process conditions in such a way that carbon Hard dioxide is formed from the aforementioned liquid carbon dioxide components in a stable state - such meta, - using temperature and pressure conditions on the perforated sieve aggregate side to melt. The carbon dioxide from the layer and the molten carbon dioxide is collected through the opening on the aggregate side 2 0. Fluid separator assembly according to claim 19, where the separator assembly The fluid consists of the following: - Temperature arrangement for maintaining the optimum temperature on the substrate side of the sieve. Drill holes to melt liquid carbon dioxide from the perforated screen; 2 1. Fluid separator assembly according to claim 19 or 20, where the intermediate object is Largest outer width 2Ro max which is 2Rn min larger than inner width 2Rn min of the isthmus section 2. 2. One of the fluid separator assembly according to Clause 19 to 21, where The opening has an entrance size on the feed side which is larger than the outlet size on the aggregate side 2. 3. Fluid separator assembly according to claim 22, where the outlet size is Approximately equal to or significantly smaller than the average grain size of solid carbon dioxide page 6 of the number 6 Page 2 4. Fluid separator assembly according to claim 22 or 23, where the opening is A circle with a diameter on the side of the aggregate ranges from 0.5 to 5 mm. 2 5. One of the fluid separator assembly according to Clause 19 to 24, where the second entry is a line inlet. Contact with the circumference of one sequence section, in such a way that a rotating flow in one sequence is produced 2 6. one of the fluid separation assembly according to Clause 19 to 25, where the sequence part follows The fifth exit was arranged further, where the fifth exit was Determined to facilitate extraction of non-carbon dioxide components 2 7. Fluid separation assembly according to claim 26, where the fifth exit was formed. By the gyroscope, which is composed of significant vertical pipes extended into the sequence. One through the top of the sequence section in a downward direction, with the lower end of the pipe positioned Lower vertically than the second entry 2. 8. Fluid separation assembly according to Clause 19 to 27, provided by There shall be an interstitial agitator during the first order and the collection tank 2. 9. Fluid separation assembly in accordance with Clause 19 to 28, provided that the collection tank is provided to Along with the fourth exit, the fourth exit was set to help. Provides extraction of the hydrocarbon liquid components 3 0. Fluid separation assembly according to claim 29, where the fluid separation assembly It is assembled with a feedback tube, in which the feedback tubes are arranged to feed back the fluid components. Hydrocarbons from the fourth exit to the cyclone-type 3 separator. 1. The fluid separation assembly in accordance with one of Clause 19 to 30, where the separation container is further combined with a designated cooling port arrangement to provide a temperature condition. Predetermined, where these temperature conditions allow coagulation of fluids are high in carbon dioxide ------------