TH21509B - Improved system of sulfur separation - Google Patents

Abstract

Liquid separator system for separating molten sulfur Out of the liquid redox solution or the aqueous slurry. With a hollow container with a top and bottom. The hollow container has a diameter at the top. Is longer at the bottom, and the hollow vessel cross-section decreases as it descends from The top to the bottom of the hollow vessel, the system also consists of one inlet. For inducing redox solutions or diluted water with dissolved sulfur, which is more concentrated than redox solution or liquefied water, into a hollow vessel, one of the outlet channels near the bottom. The end of the hollow vessel which allows Molten sulfur flows out of a hollow vessel. The joint skin control structure will detect The degree of the joint surface between a redox solution or aqueous liquefaction with molten sulfur, and the joint surface regulation structure controls the sulfur flow. Melted from the exit channel Make adjustments to the joint facial skin control structure to change The vertical height of the level of the joint surface inside the hollow vessel is optimized, so the assembly time of molten sulfur in the hollow vessel does not increase with the The raw material of sulfur production is reduced, and the area of the sulfur common surface that Melted with reduced redox solution When the amount of sulfur raw materials decreases

Claims (3)

1. a system of a liquid separator which consists of, in a combined manner A hollow container with a top and bottom. Such a hollow container has a diameter. At that top, longer than at the bottom. The diameter of the hollow vessel decreases as it descends from the top to the bottom, thus forming the tapered portion of the hollow vessel; One inlet for the first induction of fluids. And the second liquid Into the hollow container The second liquid was thicker than the first one; One outlet near the bottom of the hollow container. To allow The flow of a second such liquid out of the hollow vessel; One facial control structure that creates And set the characteristics to make sure The level of the common faces inside the hollow container. Between the first liquid and the second liquid And to control the flow from the said outlet To level Of the above joint surface Or decreases in response to each increase or decrease in the aforementioned flow conditions. 2. The system of liquid separators as requested in claim No. 1. The first type is a redox solution, or aqueous solution from redox operations. And the second liquid is molten sulfur. 3. System of liquid separator as requested in Clause 2 herein. Finally, such hollow containers were cylindrical. And the bottom of the hollow container 4. The system of the liquid separator as held in Clause 3 herein. The joint surface shall remain within the aforementioned slender portion of the hollow vessel. 5. System of liquid separator as requested in Clause 4, whereby the operating time of the second liquid. However, in the hollow vessel, it does not increase when the flow out of the said outlet is reduced. 6. Sulfur separator system to separate the sulfur from the mixture. Which consists of The first liquid vs. the second liquid These include in conjunction with: a hollow vessel with a cylindrical top with a diameter of one, a conical middle and a cylindrical bottom with a parallel second. Which is shorter in size One such diameter Make the top section connect to the middle section, make the middle section connect to the bottom section. The diameter of the middle part It will decrease When dropping from one such diameter to diameter The second as mentioned; One inlet that connects the hollow container. For the induction of such mixtures Into the hollow container The mixture will form a common surface between the liquid type. The first one and the second liquid Inside a hollow vessel such that at a certain level in the vertical; One outlet port connected to the hollow container for the outflow of objects. The second liquid from the hollow vessel This flow produces a large amount of sulfur raw materials; And the joint surface controls that were created and styled to detect the said vertical level Of the said facial skin And to make the level of the face of the joint raised or lowered It responds to each increase or decrease in the amount of raw materials of such sulfur. 7. Sulfur separator system. As held in Clause 6 herein, liquid The first type is a redox solution. And the second liquid is molten sulfur. 8. System of sulfur separator. As held in Clause 6 herein, liquid The first type is aqueous slurry and the second is molten sulfur. 9. Sulfur separator system. As held in Clause 6 herein. It is connected to the above section of the hollow container. And the said exit channel It is connected to the bottom of the hollow vessel. 1 0. Sulfur separator system. As requested to hold the rights in Clause 6 by making the channel The entrance is connected to the aforementioned central part of the hollow vessel. And make an exit channel It is connected to the aforementioned middle part of the hollow vessel. 1 1. Sulfur separator system. As held in Clause 10 herein, the operating time of the molten sulfur in the said hollow vessel increases as the number The raw materials of sulfur were reduced as mentioned. 1 2. System of sulfur separators to separate sulfur from liquid, such liquids include redox solutions or water as a slurry. And molten sulfur, which is more concentrated, is assembled in a combined manner: a hollow vessel with one inner wall. Such an inner wall includes the inclined part. The inner part in such a way that the cross-sectional area of the hollow container is reduced when dropping down below; One inlet that connects to the hollow vessel for induction of the liquid. Into the hollow container The molten sulfur sinks in the hollow vessel and forms a surface in conjunction with the aforementioned redox solution or the aforementioned water at height. In a vertical scale This vertical height corresponds to the amount of molten sulfur. In such a liquid These common surfaces have a surface area corresponding to the container cross-sectional area. Such hollow at such vertical heights; One outlet that connects to the hollow vessel for carrying molten sulfur. It is removed from the hollow container, and the exit channel control mechanism is created. And characterize to control the sulfur flow at Melted through the said channel. Such a flow of molten sulfur This will be the raw material of sulfur. And to make the aforementioned vertical height of the surface Such joint raised Or decreases in response to increase Or decrease in each condition in the amount of raw materials 1 3. System of the sulfur separator as claimed in Clause 12. The outlet consists of an outlet valve with a common face control mechanism, a common face control mechanism. The vertical height of the joint surface inside the hollow vessel and the valve of the said outlet is controlled. 1 4. System of the sulfur separator, as held in claim 13, herein the wall side in It forms the tapered part of the hollow vessel, the outlet control mechanism makes The joint surface remains in such condition. The so-called portion of the aforementioned hollow vessel. 1. 5. System of the sulfur separator as held in Clause 14. Such a cylinder And such cross-section corresponds to the area of the circle 1 6. The system of the sulfur separator as held in Clause 15. Here, the liquid Such is the emission from the sulfur smelter. 1 7. The system of the sulfur separator as held in Clause 16 herein at the time of assembly. The molten sulfur in the hollow vessel remains relatively stable in response to the transformation. Diversion of Sulfur Raw Materials 1 8. System of Sulfur Separators as held in Clause 17 herein. It is tilted in a straight line. 1 9. System of the sulfur separator as held in claim 18. Here, the control mechanism Such an outlet will make the height of the vertical. The face of the joint is higher in response to 2 0. Methods for separating molten sulfur from fluids, including steps, as a combination of: Induction of the fluid comprising the said fluid. And molten sulfur. It enters a hollow container. Such molten sulfur Will be immersed in a hollow container. And forms a surface in conjunction with the fluid at a certain vertical height; Removing the molten sulfur from the hollow vessel; And the variation in the vertical height of the aforementioned face responds to the rate of Removing the molten sulfur from the hollow vessel 2 1. Method as held in Clause 20 herein, such fluid is a solution. A liquid redox or liquefied water 2 2. Method as requested in Clause 21, whereby the time of operation of the sulfur That melts in such a hollow container It remains relatively constant, responding to changes. At such a rate of removing the molten sulfur from the hollow vessel 2 3. The procedures requested in Clause 20, provided that the hollow container shall include: The inclined wall is defined as the range of the shortened diameter of the hollow container. The vertical height remains within the range of the shortened diameter.