DE1543164C3 - Process and device for the production of sulphated and sulphonated products - Google Patents

Description

Further treatment, for example a neutralization, the drum is driven, is from the jacket 2 be subjected. If the separator is constructed via the drain line 10, it is removed.

such that the outlet line for the degassed pro- The invention is based on the following

ducts runs tangential to the drum and explains their pipe matching test and the example.

mouth opposite to the direction of rotation of the liquid

is directed, it is possible to use the Pum comparative test

pen for the further conveyance of the degassed products ... . . ,

from the centrifuge drum to other treatment (working methods according to patent 1 468 209)

to save boilers. A liquid raw material for the production of

It is necessary to use the reaction mixture in liquid io detergent, which consists of technical lauryl alcohol To maintain the state, and for this purpose the consisted and per mole with 2 moles of ethylene oxide vice-centrifuge drum If necessary, it was heated with the aid of a metering pump the. The heating can be carried out by known means at a flow rate of 122.5 kg per take place, for example by means of steam coils. Hour of the first chamber of a multi-chamber

In certain cases, if, for example, a reaction vessel is supplied with 15, as described in patent I 468 209,

highly viscous reaction mixtures can be described in particular in Example 5, and in the it may be desirable to minimize the centrifuge with a converter gas stream which to operate the pressure to degas the 5.6 percent by volume of sulfur trioxide contained in the To facilitate mixing. To achieve this, sulfuric acid ester can be converted.

the centrifuge is provided with a jacket and »o the mixture of the essentially complete the negative pressure from a vacuum pump, a converted product, the carrier gas and the not

-. Induced draft fan or by means of other known devices converted sulfur trioxide, which from the reaction

* Yunts are generated. out of the vessel, was in a conventional cyclone separator

A centrifugal separator, which for the purpose of being passed into which the gaseous components The present invention is suitable, should have been separated on the basis of 95 of the mixture. This separation However, drawing showing an elevation in section was incomplete and the final product streamed to be discribed. from the cyclone in the form of a viscous foam,

A cone-shaped centrifuge drum 1 containing about 50 percent by volume of entrained gases is installed rotatably in a jacket 2 and is driven by this mixture of liquid reaction product and a shaft 3, which was entrained by the stuffing box 30 gases then immediately ansen 4 in the lower Part of the shell 2 enters. The centrifuge jacket, which is then neutralized in aqueous alkali and delivered, is provided with: steam coils5, a mass with a high gas content, which, if necessary, allow heat to gradually degas at 50 ° C. when the drum 1 is removed and then lead to a; an outlet line 6 for the degassed mauve-amber-colored liquid delivered, which has the folsiness, which has the following composition except for the periphery at the bottom:
Drum 1 extends and runs tangentially to the drum,

with its muzzle 7 the sense of rotation of the liquid sodium lauryl ether sulfate 25.3%

speed is opposed; an exhaust pipe 8, the

via a (not shown) with a washer unreacted lauryl ether 1.09%

provided chimney blows into atmosphere; one 40 sodium sulfate 1.73%

Feed line 9 for the material to be degassed, 71 se «· /

which is essentially in the axis of rotation of the Trom water. / 1.08 ^

mel 1 is attached and into the interior of the drum

) suffices; and a drain line 10. Example

During operation, the drum is rotated in 45

tion is added, and the material to be degassed is The method described in the comparative experiment was fed into the drum via the feed line 9 - the procedure was carried out again with the differential feed. The centrifugal force causes a separation ung that the mixture from the substantially full of the gas from the mixture and drives the material constantly converted product, the carrier gas and the against the wall of the drum, where the separation of so unreacted sulfur trioxide from the reac -Gas and liquid is completed. The gas tion vessel emerged, escaped into a centrifugal separator from the jacket via the exhaust pipe 8 and was directed, in which a substantially full reached into the chimney washer, where the entrained constant separation of the liquid components of SO ₃ is removed by washing with acid before the gaseous components was achieved. That the gases leak into the atmosphere. By means of the reaction product, which flowed out of the centrifugal separator steam coils 5, the drum can be heated, consisted of a transparent liquid so that the material in the drum is essentially free of entrained gases at all times. By the incline of the drum it was. This was immediately neutralized and the degassed product is then delivered to the bottom of the drum in a light yellow liquid with the following composition: presses, where it is collected 60 via the discharge line 6

will. Since the discharge is tangential to the drum, sodium lauryl ether sulfate. 24.6%

runs and its mouth 7 is opposite to the direction of rotation, the torque of the rotating, unconverted lauryl ether presses 0.54 / _a

Liquid part of the liquid through the pipe- sodium sulfate 0.15%

line 6 upwards and provides the necessary 65 _w 7471 ° /

Pulling force for the further conveyance of the degassed liquid water · 1% 1 1 / "

to the neutralization vessel, which is not shown here is. Any liquid that spills over the edge A by-pass of the liquid end product that

emerged from the centrifugal separator, was passed through a device for process control, the consisted of a colorimeter with a continuous flow cell and a reference standard. The color intensity of the end product of the reaction was continuously measured and recorded, and a signal was sent to the determinants that regulate the sulfation process, so each Correct any deviation in the quality of the end product.

1 sheet of drawings

Claims (2)

1 2 samples of the reaction product are monitored, and claims are made: the required parameters or the parameters are then varied to avoid any deviations. 1. Further development of the process to compensate for the properties or the assembly of sulfation or sulfonation 5 setting of the products. For these products according to patent 1 468 209, for the purposes of this, it is desirable to be able to dispose of the reaction products consisting of a liquid essentially completely degassed sample of the Prosigkeit-gas mixed phase as quickly as possible, for which none Mixing reaction that has occurred outside of the reaction vessel, withdrawn from the last reaction zone.
is, in a centrifugal separator with rotating io The usual method for degassing the drum is degassed. Liquid-gas mixtures consist in the application 2. Further configuration of the device according to. a cyclone separator. However, it was found Patent 1,468,209, characterized in that it has the disadvantage that such a separator an additional centrifugal separator with rotating - the separation of viscous reaction mixtures only incomplete Drum that takes place continuously to degas the reaction, and even lower for mixtures mixture serves, contains. Viscosity, the implementation between the slow flowing film of the mixture and the remaining gas within the separator continues in front of you. How found but it is fast when using a Zentriao fugalseparators with rotating drum and to achieve essentially complete separation of the residual gas from the reaction products. The method of patent 1 468 209 relates to the further embodiment of the invention on the production of sulfation or sulfonation process for the production of sulfation or tion products by reaction of fatty alcohols as sulfonation products according to patent 1,468,209 or alkaryl hydrocarbons with a sulfur, characterized in that the .from a liquid trioxide-inert gas mixture The reaction mixture, liquid phase, exists in a continuously flowing mixed gas phase, the sulfur trioxide inert being withdrawn from the last reaction zone, in gas mixture in the individual reaction zones, which is a centrifugal separator with a rotating drum are in communication with one another, introduces, with 3 ° being degassed. The molecular ratio of sulfur trioxide to organ- The patent 1,468,209 discloses and claims In the first zones a device for carrying out the process claimed there is less than 1, but in the last zones greater than 1, consisting of a long reaction vessel, the volume of the gas mixture stretched a few hundred times and transversely to the longitudinal direction as large as that of the liquid, and the mean 35 direction of the vessel is divided into several chambers by heat exchange surfaces in the residence time of gas and liquid in the last zone, which inlet lines or the last zones are less than 1 second. are assigned individually, the ratio of the sulfur trioxide heat exchange area present at each point to the volume of the reaction quantities are carefully adjusted, and a sulfur vessel of the order of 2.79 m ¹ per 0.0283 m ³ excess of trioxide is only in the last Zone or the 40 reaction vessel volumes. This allows a final zone of the reaction vessel to be present. The liquid phase, or a reaction mixture consisting of a liquid-gas reaction mixture, which the reaction vessel makes a mixed phase into one, is then degassed and quenched or a neutral flow through is caused without lysing in order to terminate the reaction. The process of creating a substantial pressure within the reaction vessel is particularly applicable to the sulphation or gradient, and the gaseous sulfur trioxide sulphonation of raw materials, such as those used for the manufacture of cleaning agents that are fed into some or all of the reaction chambers will. According to the invention, these provisions are difficult to treat with sulfur trioxide, further developed in that they have an additional centrifugal separator with a rotating stream, which sometimes has a tendency to form colored byproducts. so mel, which is used to degas the reaction mixture, The present invention relates to a further aspect. design of this process, after which the implementation of the centrifugal separator for the invention is terminated by degassing the reaction mixture. Purposes can be a separator of known type. As has been found, if the separating The drum can be cylindrical in shape, however, with the residual sulfur trioxide gas present in the reaction mixture, it is more advisable to use a drum in the form of a reaction mixture, not quickly through a truncated cone, since in such a case, a deterioration of the product. Form the splashing away of the liquid from the entrance of the stream, the reason for the formation of undesirable side melons is reduced to a minimum value,
products exist, e.g. B. of anhydrides and colored The consisting of a liquid-gas mixed phase Products. If the gas is not essentially complete reaction mixture, as it is according to the procedure constantly removed, so can also form in the case of the patent 1,468,209 obtained directly on Neutralization of the only partially degassed product using the rotating centrifuge drum of the separator to remove excess Amounts of inorganic substances are added to the. Those present in the mixture End products. A quick and complete degas escape and are directed into the chimney, Gassing is also desirable so that one can degas 65 To recover samples of the product for the purpose of the reaction- residual sulfur trioxide. The entSurveillance receives. The products gassed in the reaction vessel are continuously removed from the Tromschenden Conditions are subtracted by subtracting mel and can then use a corresponding