KR101337155B1 - Method for suspending and introducing solid matter in a high-pressure process - Google Patents

Abstract

The invention relates to a method for suspending and introducing solid matter in a high-pressure process, for example colorant pigments in a high-pressure process, in which a supercritical fluid is used as the process medium and a pressure in excess of 150 bar prevails. According to the invention, the suspension of the solid matter takes place at a low-pressure in a completely separate suspension method. In the latter, the solid matter is suspended or partially dissolved in a non-critical, liquid gas. The pressure in said suspension method is less than 90% of the critical pressure of the liquid gas. The suspension is introduced into the high-pressure process by means of a pump.

Description

METHOD FOR SUSPENDING AND INTRODUCING SOLID MATTER IN A HIGH-PRESSURE PROCESS}

The present invention relates to a method of suspending and injecting solids in a high pressure process, for example, a colored pigment (e.g., a high pressure process with a pressure exceeding 150 bar and using a supercritical fluid as the process fluid). color pigments) are suspended or injected. The solids flotation step occurs at low pressure in a completely separate flotation process. Solids are suspended or partially dissolved in non-critical and liquefied gases. The floating pressure is less than 90% of the critical pressure of the liquefied gas. Solids injection into the high pressure process takes place by means of a pump.

Various prior art and devices are known which can supply solids to a high pressure process. It is common to feed the solids by a feed hopper, feed tank or similar device, which is filled with the process fluid so that the solids enter the high pressure process.

The process of dyeing fibrous materials in at least one supercritical fluid is disclosed in German Patent Publication No. 199 28 405, in which the required amount of powder dye is divided into a number of small batches, each of which is 1 It includes an injection process in which the ash amount is in contact with the supercritical fluid for the time required for dissolving or dispersing the solids. The apparatus described in the publication provides oscillating pistons with bearings on both sides, which are located across the stream and move along a process line containing critical fluids. The piston receives a dose of solids through the first bore at the end position and the opposite end position. This first bore is disposed in the main stream so that solids are removed from the bore by the fluid. At the same time, at the opposite ends of the piston the second bore is filled or emptied respectively.

The process and apparatus according to German Patent Publication No. 199 28 405 has the disadvantage that the apparatus must be proportioned and sized according to the main process. In addition, the empty and mainstream bores are used to catch the supercritical gas and advance to the filling position, where every flashing cycle causes such zones to be at the same or higher pressure or inevitably damages the filling process. To be performed. In addition, it is in fact dangerous to cross a high-pressure gasket with bores guided by a piston. After a short period of operation, certainly the gasket material is damaged, that is to say leak problems.

International Patent Publication No. 97/13915 discloses the most common method of injecting solids in a supercritical process. This process provides a dye preparation vessel placed in the bypass of the main process fluid. To remove the solids, each valve is opened and the solids flow by partial flow of the main process fluid. This makes uniform injection or fine tuning of the dye impossible, since the mixing of solids and fluids is diluted as the process fluid enters. In addition, all components placed in these process bypasses must meet the pressure and temperature requirements of the main process.

A comparison of the optimized flotation process according to International Patent Publication No. 97/13915 is disclosed in US Pat. No. 6,261,326. In this process, the dye preparation vessel is used to dilute or float the dye for the purpose of circulating a partial amount of solids by a stirrer or pump. As disclosed in this publication, most of these preparations are in critical fluid state, since the preparation process is supplied with a supercritical fluid from the main process. In the case of the above-described processes, this preparation method also has a defect, that is, a defect that must satisfy the high pressure requirement of the main process, especially when it is called a treatment process. In addition, solids injection and dosing not described in US Pat. No. 6,261,326 can only be affected by sophisticated hopper systems or solids supply vessels that require the high pressure of the main process to be met.

It is therefore an object of the present invention to provide a solids flotation and injection process that operates independently of the high pressure process and has a higher degree of efficiency than the efficiency of conventional processes.

The object of the present invention can be achieved by a process of suspending and injecting solid material in granular, granular or powder form into a high pressure process using a supercritical fluid as the process fluid, wherein the process comprises Include. The process uses an apparatus consisting of a floating tank and an apparatus for circulation of a liquid, including a device for supplying and discharging the floating tank as well as the circulation of the liquid.

When the process is performed, the first step provides for filling the floating tank with solid material and fluid, the fluid being a noncritical liquefied gas to form a liquid portion.

In the second step, the solid material is suspended in the liquid portion by the liquid stirring device in the floating tank so that the solid remains suspended. The liquid stirring device is a pump disposed outside the stirrer or the floating tank, which is connected to the vessel of the floating tank by a suction tube and a conveying tube so that a part of the floating portion in the liquid portion can be continuously circulated in a cycle.

The pressure in the floating stage is less than 90% of the critical pressure of the liquid section, and the ideal pressure value is less than 60 bar to allow the gaseous section to be present above the liquid section in the floating tank.

The final step requires the conveying of the suspended matter to the high pressure process by the conveying step as discharge action. Therefore, the pump and the conduit of the pump connected to the main process must meet the high pressure process requirements. Any process equipment mounted on the intake side of the pump needs to meet the lower standard.
In one embodiment of the present invention, the pressure in the floating tank can be stabilized by receiving a gas free of solids in the floating tank during the transfer step to the high pressure process. In another embodiment, the apparatus for circulating fluid in the floating tank is an agitator mounted in the floating tank.
In another embodiment of the present invention, the apparatus for agitating a liquid is a pump connected to the floating tank via a suction pipe and a conveying pipe so that a portion of the floating portion is circulated continuously in a cycle.

A preferred embodiment of the process according to the invention is to supply a fluid for suspending solids in a floating tank that is chemically substantially identical to the process fluid of the high pressure process.

In order to optimize the process, other (further substances) are added to the fluid as the liquid part. Such materials are for example cyclic short-chain hydrocarbons and acyclic short-chain hydrocarbons, or short-chain alcohols, or aldehydes, or ketones, or water ( H ₂ O) and mixtures thereof.

In the process according to the invention, the pressure applied in the floating tank during the injection cycle as a transfer step of floating the solids in a high pressure process is preferably maintained at a constant level by filling with a gaseous fluid. In one embodiment of the invention, the suspended state is permanently stabilized during the transfer step to the high pressure process by the liquid stirring device.

Thus, another ideal process allows the supply of solids suspended in the high pressure process to occur continuously during the vessel discharge cycle, with the volume feed rate of the gas being filled being constant or variable so that the concentration in the floating tank can be kept constant. The volume feed rate may be kept constant or changeable by pump pumping. The concentration in the floating tank remains substantially constant during the discharge cycle since the filling gas is gaseous rather than liquid.

Another preferred embodiment of the present invention provides the use of materials that dissolve in high pressure processes, such as colored pigments, or binders, or bleaching agents, or aromatics, or aromatic extracts, or mixtures thereof. According to the present specification, the present invention also has the advantage that, unlike the prior art, the solids are simply suspended and the specific solubility of each of the feed stocks does not correspond to the floating stage. The feed stock is added to the large volumetric stream of the main process and the solids dissolve immediately due to the high concentration rate.

Thus, a preferred embodiment of the present invention is made by the fact that the floating flow is adjusted to the high pressure process with the mixture in such a way that the ratio of the volume flow of the suspended solids and the high pressure fluid is less than 1:50 and ideally less than 1: 100.

Very small suspended flows, as compared to the main process volume flow, generally have a minor physical impact on the main process.

The process according to the invention is described on the basis of two figures showing a typical process layout.

1 shows a floating process using a pump to stir a liquid,

2 is a diagram illustrating a process of using a stirrer without an external cycle.

According to FIG. 1, the floating process 1 connected by the tube 6 to the high pressure process 4 substantially comprises a floating tank 2 and a pump 3. The floating tank 2 is filled with liquefied gas through the tube 7 and solids through the tube 8. The arrangement of FIG. 1 shows that the liquid portion 2a and the gas portion 2b form the floating tank 2. Some flow flows out of the tank via pipe (10) by means of floating pump (9) and is recycled through pipe (11).

When the floating tank 2 is emptied, the suspended solids are conveyed via the pipe 5 by the pump 3 and again to the high pressure process 4 via the pipe 6. It is clear that the pump 3 and the pipe 6, which is the means of transport of the pump, should be at the pressure and proportion applied to the high pressure process 4. Residual components of the flotation process must meet the requirements for pressures up to approximately 60 bar.

2 shows another embodiment of the process, in which the floating tank 2 is equipped with a stirrer 13 so that the floating can be prepared and kept stable.

Claims (36)

Solid material in granular, granular or powder form, using a supercritical fluid as the process fluid, a flotation stage that is part of a high pressure process, and a device consisting of a suspension tank and a device for the supply and discharge action as well as the circulation of the liquid As a method of floating and injecting in a high pressure process, A solid material and a fluid are supplied to the floating tank, the fluid being a liquefied gas to form a liquid part, A solid material is suspended in a liquid part by means of a device for agitating a liquid, in which a solid material in the form of granules, granules or powders is suspended and injected in a high pressure process, wherein the solid material remains suspended. The pressure applied to the floating stage is less than 90% of the critical pressure of the liquid portion, the gaseous portion in the floating tank covers the liquid portion, A method of floating and injecting solid material in granular, granular or powder form in a high pressure process, characterized in that the liquid portion is conveyed to the high pressure process by means of a pump together with the suspended solids in a final step. The method of claim 1, The pressure applied to the flotation step is less than 60 bar, characterized in that the solid material in the form of granules, granules or powders is suspended and injected in a high pressure process. The method according to claim 1 or 2, The pressure in the floating tank is stabilized by receiving a gas free of solids in the floating tank during the transfer to the high pressure process, wherein the solid material in granular, granular or powder form is suspended and injected into the high pressure process. The method according to claim 1 or 2, A device for circulating fluid in a floating tank is a stirrer mounted in the floating tank, wherein the solid material in the form of granular, granular or powder is suspended and injected in a high pressure process. The method according to claim 1 or 2, A device for agitating a liquid is a pump connected to a floating tank via a suction pipe and a conveying pipe so that a portion of the floating portion is circulated continuously in a cycle, wherein the solid material in the form of granules, granules or powders is suspended and injected in a high pressure process. How to. The method according to claim 1 or 2, Wherein the fluid in the floating tank is chemically identical to the fluid of the high pressure process, wherein the solid material in granular, granular or powder form is suspended and injected into the high pressure process. The method according to claim 1 or 2, Cyclic short-chain hydrocarbons and acyclic short-chain hydrocarbons, or short-chain alcohols, or aldehydes, or ketones, or water (H ₂ O) and these A further material comprising a mixture of is added to the liquid portion, wherein the solid material in granular, granular or powder form is suspended and injected in a high pressure process. The method according to claim 1 or 2, The pressure applied in the floating tank during the transfer to the high pressure process is maintained constant by the addition of a gaseous fluid, wherein the solid material in the form of granular, granular or powder is suspended and injected into the high pressure process. The method according to claim 1 or 2, The suspended state is characterized in that the solid material in the form of granules, granules or powders is suspended and injected into the high pressure process, characterized in that it is permanently stabilized during the transfer to the high pressure process by a liquid stirring device. The method according to claim 1 or 2, The material which is dissolved in the high pressure process is a solid pigment in granular, granular or powder form, characterized in that it is a colored pigment, or a binder, or a bleach, or an aromatic substance, or an aromatic extract, or a mixture thereof. How to inject. The method according to claim 1 or 2, The conveying step to the high pressure process is carried out in a continuous manner during the discharge action, and the volumetric feed rate of the gas being filled is constant or changeable so that the concentration in the floating tank remains constant. How to float and inject the material in a high pressure process. The method according to claim 1 or 2, Floating flow is controlled during the step of transferring to the high pressure process so that the ratio of the volume flow of the float and the high pressure process is 1:50, wherein the solid material in the form of granular, granular or powder is suspended and injected in the high pressure process. The method of claim 12, Floating flow is a method of floating and injecting solid material in the form of granules, granules or powders in a high pressure process, characterized in that during the transfer step to the high pressure process so that the ratio of the float and the volume flow of the high pressure process is less than 1: 100. . The method of claim 3, A device for circulating fluid in a floating tank is a stirrer mounted in the floating tank, wherein the solid material in the form of granular, granular or powder is suspended and injected in a high pressure process. The method of claim 3, A device for agitating a liquid is a pump connected to a floating tank via a suction pipe and a conveying pipe so that a portion of the floating portion is circulated continuously in a cycle, wherein the solid material in the form of granules, granules or powders is suspended and injected in a high pressure process. How to. The method of claim 3, Wherein the fluid in the floating tank is chemically identical to the fluid of the high pressure process, wherein the solid material in granular, granular or powder form is suspended and injected into the high pressure process. The method of claim 3, Cyclic short-chain hydrocarbons and acyclic short-chain hydrocarbons, or short-chain alcohols, or aldehydes, or ketones, or water (H ₂ O) and these A further material comprising a mixture of is added to the liquid portion, wherein the solid material in granular, granular or powder form is suspended and injected in a high pressure process. The method of claim 3, The pressure applied in the floating tank during the transfer to the high pressure process is maintained constant by the addition of a gaseous fluid, wherein the solid material in the form of granular, granular or powder is suspended and injected into the high pressure process. The method of claim 3, The suspended state is characterized in that the solid material in the form of granules, granules or powders is suspended and injected into the high pressure process, characterized in that it is permanently stabilized during the transfer to the high pressure process by a liquid stirring device. The method of claim 3, The material which is dissolved in the high pressure process is a solid pigment in granular, granular or powder form, characterized in that it is a colored pigment, or a binder, or a bleach, or an aromatic substance, or an aromatic extract, or a mixture thereof. How to inject. The method of claim 3, The conveying step to the high pressure process is carried out in a continuous manner during the discharge action, and the volumetric feed rate of the gas being filled is constant or changeable so that the concentration in the floating tank remains constant. How to float and inject the material in a high pressure process. The method of claim 3, Floating flow is controlled during the step of transferring to the high pressure process so that the ratio of the volume flow of the float and the high pressure process is 1:50, wherein the solid material in the form of granular, granular or powder is suspended and injected in the high pressure process. 5. The method of claim 4, Wherein the fluid in the floating tank is chemically identical to the fluid of the high pressure process, wherein the solid material in granular, granular or powder form is suspended and injected into the high pressure process. 5. The method of claim 4, Cyclic short-chain hydrocarbons and acyclic short-chain hydrocarbons, or short-chain alcohols, or aldehydes, or ketones, or water (H ₂ O) and these A further material comprising a mixture of is added to the liquid portion, wherein the solid material in granular, granular or powder form is suspended and injected in a high pressure process. 5. The method of claim 4, The pressure applied in the floating tank during the transfer to the high pressure process is maintained constant by the addition of a gaseous fluid, wherein the solid material in the form of granular, granular or powder is suspended and injected into the high pressure process. 5. The method of claim 4, The suspended state is characterized in that the solid material in the form of granules, granules or powders is suspended and injected into the high pressure process, characterized in that it is permanently stabilized during the transfer to the high pressure process by a liquid stirring device. 5. The method of claim 4, The material which is dissolved in the high pressure process is a solid pigment in granular, granular or powder form, characterized in that it is a colored pigment, or a binder, or a bleach, or an aromatic substance, or an aromatic extract, or a mixture thereof. How to inject. 5. The method of claim 4, The conveying step to the high pressure process is carried out in a continuous manner during the discharge action, and the volumetric feed rate of the gas being filled is constant or changeable so that the concentration in the floating tank remains constant. How to float and inject the material in a high pressure process. 5. The method of claim 4, Floating flow is controlled during the step of transferring to the high pressure process so that the ratio of the volume flow of the float and the high pressure process is 1:50, wherein the solid material in the form of granular, granular or powder is suspended and injected in the high pressure process. The method of claim 5, Wherein the fluid in the floating tank is chemically identical to the fluid of the high pressure process, wherein the solid material in granular, granular or powder form is suspended and injected into the high pressure process. The method of claim 5, Cyclic short-chain hydrocarbons and acyclic short-chain hydrocarbons, or short-chain alcohols, or aldehydes, or ketones, or water (H ₂ O) and these A further material comprising a mixture of is added to the liquid portion, wherein the solid material in granular, granular or powder form is suspended and injected in a high pressure process. The method of claim 5, The pressure applied in the floating tank during the transfer to the high pressure process is maintained constant by the addition of a gaseous fluid, wherein the solid material in the form of granular, granular or powder is suspended and injected into the high pressure process. The method of claim 5, The suspended state is characterized in that the solid material in the form of granules, granules or powders is suspended and injected into the high pressure process, characterized in that it is permanently stabilized during the transfer to the high pressure process by a liquid stirring device. The method of claim 5, The material dissolved in the high pressure process is a solid pigment in granular, granular or powder form, characterized in that it is a colored pigment, or a binder, or a bleach, or an aromatic substance, or an aromatic extract, or a mixture thereof. How to inject. The method of claim 5, The conveying step to the high pressure process is carried out in a continuous manner during the discharge action, and the volumetric feed rate of the gas being filled is constant or changeable so that the concentration in the floating tank remains constant. How to float and inject the material in a high pressure process. The method of claim 5, Floating flow is controlled during the step of transferring to the high pressure process so that the ratio of the volume flow of the float and the high pressure process is 1:50, wherein the solid material in the form of granular, granular or powder is suspended and injected in the high pressure process.

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