TH72073B - Liquid-gas cycle reactor systems - Google Patents

Abstract

DC60 liquid-gas cycle reactor systems, including the upper positioned slinger (The interspace of the head) of Wessel's reaction. This slinger consists of a horizontal surface. The top, which includes a number of vertically raised leaves that extend radially The outer side follows a curved path that efficiently distributes the liquid around the reactor vessel, a method for conducting oxidation reactions using a cyclical reactor system. This liquid-gas was also exposed. Reactor systems and methods revealed this range of Extensive application But it is particularly suitable for the production of teraphthalic acid. Liquid-gas cycle reactor systems, including the upper positioned slinger (The interspace of the head) of Wessel's reaction. This slinger consists of a horizontal surface. Above, which includes vertically raised leaves, the number of which extends radially The outer side follows a curved path that efficiently distributes the liquid around the reactor vessel, a method for conducting oxidation reactions using a cyclical reactor system. This liquid-gas was also exposed. Reactor systems and methods revealed this range of Extensive application But it is particularly suitable for the production of teraphthalic acid.

Claims (5)

Disclaimer (all) which will not appear on the advertisement page: Amendment 20/11/2018 Disclaimer 1. Liquid-gas cycle reactor system including Wessel conducts a reaction in which a cylindrical internal surface is positioned vertically with a passing line. Inner center (T) and upper and lower center. The first liquid inlet, located in the upper part of the Wessel. The second fluid inlet, located in the lower part of the Wessel. The product exit, located in the lower part of the Wessel. The exit of the Ai, which is located in the upper part of Wesset. At least one condenser which connects a fluid to the vapor outlet, the first liquid inlet and the second liquid inlet. Condensate control device for controlling the condensate flow from the condenser to the wessel by means of the first second inlet. The drive shaft, which extends vertically through the upper and lower parts of Wessel. At least one blending impeller, which is firmly fixed to the drive shaft, is positioned in the lower part of the Wessel slinger, which is essentially composed of a circular upper horizontal surface with Diameter (D) Center opening, fluid receiving zone concentrically positioned around the opening. At the center, a number of vertically elevated leaves that extend radially outward. Outside along a curved path with a significantly uniform height H, constant curvature with radius of curvature (R) and arc length (2) extending from the first end, which is dark. Perimeter Outside of the fluid receiving zone to the second end, located near the external perimeter of the slinger, where the drive shaft extends vertically through the center opening and is tightened in. With any upper wessel slinger device, the first liquid inlet, in such a way that the From the one inlet the liquid is introduced into the receiving zone. Where R / D correlation ranges from 0.01 to 1000 and L / D is from 0.01 to 3.14 and D / T correlation ranges from 0.05 to 0.7 and H / D is from. 0.01 to 1 ----------- 1. Liquid-gas cycle reactor systems which include Wessel carries out reactions which include the upper and lower; The first liquid inlet located in the upper part of the aforementioned Wessel; The drive shaft extending through at least part of the upper part of the aforementioned Wessel; Slinger, which is firmly fixed to the said drive shaft and is positioned in the upper part of the said Wessel under First liquid inlet Where the slinger consists of the upper horizontal surface including A number of vertically raised blades that extend radially outward along a curved path. 2. Reactor system, according to one of the preceding claims, where the slinger is assembled. This includes the fluid receiving zone positioned around the center of the above horizontal surface and where the blade extends radially along a curved path from the first end positioned close to. The outer perimeter of the receiving zone leads to the second tip positioned near the periphery. 3. A reactor system according to any of the previous claims where the first liquid inlet It is positioned above the receiving zone in such a way that the discharged liquid The first liquid inlet was introduced into the receiving zone. 4. Reactor system, according to one of the previous claims, where the slinger included. The cup-shaped section, which consists of vertical walls, centered around. The center of the upper horizontal surface and encloses at least part of the receiving zone. The liquid, where the cup-shaped portion includes at least one opening positioned close to the The above horizontal surface. 5. Reactor system according to any of the previous claims, where the slinger was assembled. Combined with an opening at the center Where the drive shaft extends in the said center opening. 6. Reactor system, according to one of the previous claims, where the upper horizontal surface is As mentioned in the slinger, it is essentially circular with a diameter (D). Each blade extends along a significantly constant curvature arc with radius of curvature (R). ) And arc length (L) where the R / D relationship ranges from approximately 0.01 to 1000 and the L / D ranges from approximately 0.01 to 3.14. 7. Which of the previous claim reactor systems? One where the relative R / D and L / D can be the same or different from each other. And each of these values is from approximately 0.1 to 1. 8. Reactor system, according to one of the previous claims, where Wessel performed this reaction. It is essentially a cylindrical shape. With internal diameter (T), upper horizontal surface The above-mentioned slinger is essentially circular with a diameter (D) and where the D / T relationship ranges from approximately 0.05 to 0.7. 9. Which of the previous reactor systems? One where the slinger includes from 2 to 16 blades having a vertical height (H) from the above horizontal surface and where this H / D relationship is from approximately 0.01. To 1 1 0. Reactor system according to any of the previous claims, which is supplemented by The second liquid inlet, positioned in the lower part of the Vessel, performs such a reaction; The vapor outlet, located in the upper part of the Vessel, carries out such a reaction; At least one condenser which connects the fluid with the vapor outlet, the first liquid inlet and the second liquid inlet, and the condensate control path for the condensate flow control. From the condenser The reaction is carried out by means of the first and second fluid inlet 1. 1. a liquid-gas reactor system, which includes Vessel conducts a reaction in which a cylindrical internal surface is positioned vertically with Inner diameter (T) and upper and lower The first liquid inlet located in the upper part of the aforementioned Wessel; A second fluid inlet located in the lower part of the aforementioned Wessel; Product outlet located in the lower part of the aforementioned Wessel; The vapor outlet, located in the upper part of the aforementioned Wessel; At least one condenser which connects the fluid with the vapor outlet, the first such liquid inlet, the second liquid inlet; Condensate control pathway for controlling condensate flow from condensers. The reaction is performed by means of the first and second fluid inlets; The drive shaft, which extends vertically through the upper and lower parts of the said Wessel; One or more blending impellers fixed to the said drive shaft and positioned in The lower part of the aforementioned Wessel; Slinger, which is mainly composed of a circular upper horizontal surface with a concentric diameter (D), a center opening, a fluid receiving zone concentrically positioned around the opening at The center, a number of vertically raised blades that extend radially to the The outside along the arc is significantly uniform of height H, constant curvature with radius of curvature (R) and arc length (L) extending from the first end positioned around the section. The outer periphery of the receiving zone leads to the second tip located near the outer periphery. Of the said slinger Where the drive shaft extends vertically through the opening at the said center and It is firmly fixed to the aforementioned slinger in the upper part of the Vessel under the first liquid inlet. It is in such a way that the liquid exiting from this first liquid inlet will be introduced into the zone. Receive such liquids and where the R / D and L / D relationships may be the same or different from each other and each Values from approximately 0.1 to 1 and where D / T and H / D relationships may be the same or different from each other, and each Have values from approximately 0.1 to 0.5 1 2.Methods for aerobic alkyl oxidation within a reactor system. Liquid-gas, which consists of a process of A wessel arrangement, which has an upper and a lower part; Importing a liquid reaction medium consisting of aerometric alkyl into Vessel; Importing a source of molecular oxygen to a liquid reaction medium within a Vessel; Condensation, at least part of the vapor that forms over the liquid reaction medium; Conducting at least part of the condensate back into the liquid reaction medium within the Wessel; Where more than 50 percent of this reverse condensate is introduced into the reaction medium. Liquid type by means of a liquid inlet positioned at the bottom of the Vessel below the level of Intra-Vessel liquid reaction medium, and less than 50% of the condensate at The reverse is introduced into the liquid reaction medium by means of the designated slinger. In the upper part of the Vessel, the reaction is above the level of the liquid reaction medium within the Vessel 1. 3. Method according to Clause 12, where more than 70 percent of this reverse condensate receives. The introduction of the liquid reaction medium is through the liquid inlet located in the lower Vessel position, and less than 30 percent of this reversed condensate is reversed by means of The slinger, designated to be positioned in the upper part of the Wessel, reacts above the medium. Intra-Vessel liquid reaction 1 4. Procedures in accordance with Clause 12 and 13, any one where the procedure for taking part Reverse condensate based on slinger consists of a process of distributing condensate. On the slinger, which is rotating around the vertical axis Where this slinger consists of a horizontal surface above This includes a number of vertically raised leaves that extend along a radial direction. Outside along the curve 1 5. Any method according to Clause 12, 13 or 14 in which the aerobic alkyl contains p-xylene and the liquid reaction medium is additionally compounded by acetylsalicylic acid. Acid