SU1661197A1 - Installation for extracting fatty acids from soap stock - Google Patents

Abstract

The invention relates to equipment for the oil and fat industry and can be used in the production of fatty acids. The goal is to increase productivity. The installation allows to intensify the process of reacting stock flow with an acid and to ensure efficient removal and separation of secondary vapors. A mixer, made in the form of a cylindrical tank with tangential output channels, is installed in the housing. The separator is fixed on the branch pipe for the removal of secondary vapors and is designed as a coil cooler with a drop-breaker screen. 1 hp ff, 3 ill.

Description

The invention relates to equipment for the oil and fat industry and can be used in the production of fatty acids.

The goal is to increase productivity.

Equipping the plant with a separator made in the form of a coil cooler with a drop-breaker screen and a mixer made in the form of a cylindrical tank with tangential outlet channels reduces the reaction time and at the same time efficiently processes the secondary vapors, eliminating the emission of acid vapors into the atmosphere.

Figure 1 shows the proposed installation; figure 2 - mixer, side view; on fig.Z - mixer, top view.

The installation for extracting fatty acids from stocking consists of a vertical cylindrical body 1 with a lid 2 and a conical bottom 3 In case 1, a shower 4 is fixed for supplying a ring-shaped water supply, and below it is a mixer 5, which is made in the form of a cylindrical tank, in the lower part of which tangential output channels 6. The upper part of the tank of the mixer 5 is connected to the pipes 7 and 8 for supplying the raw material and reagent, respectively.

The mixer 5 is installed with a gap relative to the bottom 3 and the walls of the housing 1 and can be equipped with a pressure gauge 9.

In the lid 2 of the housing 1 there is a branch pipe 10 for removal of secondary vapors, on which a separator in the form of a coil cooler 11 with a drop-breaker is coaxially fixed

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screen 12. Serpentine cooler 11 has connections for supplying 13 and coolant outlet 14, and coil 15 is connected at one end to the lower part of the gap formed by pipe 10 and the body of refrigerator 11, and its other end is connected to the atmosphere. The condensate drain pipe 16 is mounted on a separator under the inlet section of the coil 15. In the conical bottom 3 of the housing 1 there is a pipe 17 for the finished product.

On the lid 2 of the housing 1, the level gauge 18 can be strengthened, mainly of the float type.

The installation works as follows.

Soap stock and sulfuric acid (concentration of 92-95%) are fed to mixer 5 via nozzles 8 and 7, where they are mixed together (the amount of acid supplied is 9-10% by weight of stock flow). The process of interaction between soap stock and acid is accompanied by the release of a large amount of heat. The heat released is spent on the evaporation of water formed during the chemical reaction of the acid with the soap stock. As a result, a two-phase system (vapor-reactive components) is created in mixer B, and the pressure rises. The chemical reaction between the acid and soap stock under such conditions takes place in the presence of a developed contact surface and an overpressure determined by a manometer 9. These factors contribute to an increase in the rate of interaction of the reactive components.

The vapor-liquid mixture formed under pressure is dispersed through channels 6 in the radial direction, while reaching the most distant points of housing 1. Along with the radial flow of the reaction mass in housing 1 1, a tangential flow of liquid takes place along concentric circles parallel to the base of the mixer 5. At that mixing occurs due to vortices arising on the edges of the channels 6 /

The presence of tangential and radial mass flows in the housing 1 provides high efficiency and intensity of mixing, which contributes to an increase in the intensity of the reaction between unreacted acid and soap stock.

The vapor and mist of sulfuric acid arising in the course of interaction enter through the pipe 10 into the separator, partially condensing on the inner surface of the refrigerator 11, cooled on the other side with a refrigerant (for example, water, c.

10-12 ° C). In order to avoid condensate formed in the upper part of the pipe 10 back into the housing 1 on the pipe 10 a drop-drop screen 12 is installed.

this design condensate flows down the screen 12 down.

The uncondensed vapors and acid mist then flow into the coil 15, where, along with condensation, condensation and absorption of vapors and mists of acid occur on the cooled surface as they flow down the coil 15. The condensate that has formed is drained through the pipe

5 to 16, the flow area of which is adjusted so that it is always immersed by 15–20 mm in the condensate contained in the separator. This prevents the passage of uncondensed vapors to the

0 atmosphere.

The process of extracting fatty acids from stockpile under pressure without the presence of an inert gas and using a separator allows

5 to eliminate the emission of vapors and mist of sulfuric acid due to their complete capture. Reducing the amount of absorbed water consumed — provides a high concentration of acid in the condensate,

0 which makes it economically feasible to regenerate it or further use for the technological needs of production.

The process of extracting fatty acids from

5 soap stock ends when the reaction mass reaches the level of the cover 2, which is controlled by the level gauge 18. This is / 60 minutes over time. After that, the supply of acid and soap stock is stopped and

0 starts upholding mass. The acidic waters were separated from the outlet through a pipe 17. To remove traces of mineral acid, the fat mass was washed with hot water supplied through a shower 4. Washed

Claims (2)

5 fatty acids are drained through a pipe 17. Claim 1. An apparatus for extracting fatty acids from soap stock, comprising a vertical cylindrical body with a lid, 0 conical bottom and fixed in it one under another mixer and shower for water supply, pipes for supplying raw materials and reagent and removal of the finished product, condensate and secondary vapors, about that and with the aim of increase in productivity, it is equipped with a separator, made in the form of a coil cooler with a drop-breaker screen, fixed in the upper part of the body on the branch pipe of the secondary vapor the mixer is a cylindrical tank with tangential outlet channels in the lower part, with the upper part of the tank connected to the branch pipe and the condensate outlet is fixed on the separator. 2. Installation according to claim 1, characterized in that it is provided with float level Kami supply of raw materials and reagent, 5 nemer, mounted on the housing cover. Ohm agent 17 Fi.g.1 -IN // 7J - & -Aike. Agent  ondensate soap stock 7 2 R 1 Products t reaction Figure 2 H УиъЗЗ