DE3902276A1 - Process for regenerating a laden pressurised scrubbing medium - Google Patents

Abstract

A process for regenerating a pressurised scrubbing medium laden with scrubbed-out gas components by expansion of the scrubbing medium with liberation of expansion gas and subsequent stripping of further scrubbed-out components with the aid of the expansion gas is described. In order to achieve an inexpensive regeneration, the stripping is performed in two stages, the expansion gas being used as stripping gas only in the first stage and without further treatment. The stripping gas used in the second stage is taken off together with stripped components and fed to the untreated gas. <IMAGE>

Description

The invention relates to a method for regenerating one used in a pressure washing and with Washed gas components loaded detergent by release of the detergent with release of expansion gas and subsequent stripping further washed-out components with the help of Relaxation gas in a regeneration column.

Such a method is described in DE-OS 22 26 215, wherein in the known method, the loaded detergent, which is obtained at ambient temperature from the wash column is gradually reduced. The actual regeneration of the detergent to the required residual content of the key component, for example H ₂ S in an acid gas scrubbing is done by stripping the washed-out components with the expansion gas that is obtained during the relaxation. Before the introduction into the regeneration column, the key component is removed from the expansion gas by means of a subsequent wash with a partial amount of the regenerated detergent. To improve the Abstrippung the loaded detergent is warmed against warm regenerated detergent and external heat before Abstrippung.

A disadvantage of the known method is that the regeneration of the detergent in the Relaxation accumulating gas must be adjusted. The during the relaxation of the loaded detergent released gas is, however, of the Detergent amount, the pressure ratio, the type and Amount of washed out gas components and also of the crude gas composition dependent.

Further, the Strippgasmenge that is used for stripping the Washed out dissolved gas components from the Detergent is needed, proportional to Amount of detergent, the pressure and the solubility of the components to be extracted. The amount of detergent and however, the pressure is usually given. Therefore may be needed for the regeneration of the detergent Strippinggasmenge the amount available Relaxation gas only by changing the temperature in adapted to the regenerating column. The higher the Temperature, the lower the solubility of Gas components in the detergent, the lighter as is known, the stripping of said components.  

As the regeneration of the loaded detergent is not on the key component, but on the best soluble component must be designed, it is to a complete stripping of the key component to achieve in the known method u.a. necessary to strongly warm up the detergent. This However, it means a considerable consumption of External heat.

Another disadvantage of the known method is in that from the resulting gas in the relaxation before being used as stripping gas in the Regenerating column components to be extracted have to be washed out. It will be your own Washing section with a washing column similar Bottom number required. Through this coupling of After washing and stripping is the regeneration of the Detergent very susceptible to malfunction. In addition, the amount of detergent in the Regenerating column enlarged by this after-wash, whereby the consumption figures with regard to external heat, External refrigeration and pump energy as well as the system costs increase considerably.

It is therefore the object of the present invention to provide a method by which a cost-effective regeneration of one in one Pressure washing used laden detergent by means Relaxation and stripping of the washed out Gas components is enabled, which is not the Disadvantages of the known method has.  

This object is achieved in that the stripping is done in two stages, where the flash gas as stripping gas only in the first Stage and used without further treatment.

First, the bulk of the in the wash column absorbed key component in the upper Section of the regenerating column with the at Relax released gas stripped off. Hereby is not required, the detergent completely can also clean with unpurified stripping gas to be worked. This allows the advantageous Elimination of Nachwaschabschnittes for cleaning the Stripping gas. Thus, the regeneration of a smaller amount of detergent compared to the state of Technique required, which in turn is a saving External heat and cold as well as pump energy means.

It is also the coupling of available Strippgasmenge with the temperature is not so crucial. Thus, the pressure of this coarse stripping can be directly adapted to the boundary conditions of the further processing of the stripped key component, ie, delivered at an optimum pressure for further processing. Thus, for example, in the case of an acid gas scrubber with subsequent regeneration, the gas discharged during the coarse stripping, which consists mainly of H ₂ S, with such high pressure, leads into a downstream Claus plant, so that a large pressure gradient enables a smaller plant and thus reduces the system costs.

The fine cleaning of the loaded detergent by Abstrippung further, still dissolved gas components in the second stage takes place in the inventive Method advantageously at a lower Pressure as the coarse stripping in the first stage. It is particularly favorable that one for the Regeneration optimal pressure in the lower section but the key component is used continue from the top section of the column with a optimal high pressure for further processing can be deducted.

Stripping is carried out in the second stage with a gas which does not contain the components which are to be removed by suction or other components which disturb the washing. As stripping gas is pure nitrogen from an air separator, which is obtained in the case of partial oxidation of coal or other carbonaceous feed products with O ₂ almost free. Furthermore, it is possible to use decomposition products of the pure gas obtained by the laundry from a subsequent further processing plant and even a small subset of the clean gas. In special cases, eg in CO ₂ water washes, air can also be used as stripping gas. However, this is not possible if components are included in the detergent which react with the air, such as explosive organic components or H ₂ S, which leads to solid sulfur by the Claus reaction.

In an extremely advantageous embodiment of the The method according to the invention is that in the second Stage used stripping gas along with stripped Withdrawn components and fed to the raw gas. These Design is particularly useful in their application, e.g. in Sauerergaswäschen, where the stripped in the regenerating column and the head the column removed sour gas in a subsequent Claus plant is led. The invention early removal of the stripping gas from the middle part the column prevents mixing of the stripping gas with the sour gas and thus a dilution of the Sour gas. This affects the cost in the following Claus plant off.

In development of the inventive concept is with washed gas components loaded detergent the stripping of the components through at low Temperatures warmed up available waste heat. Thus, e.g. in the operation of a downstream Claus plant released steam or a pre the laundry to be cooled raw gas for the Detergent heating can be used.

Compared to the known method in which the Detergent before regeneration with external heat strong must be warmed up to a complete Stripping the key component to achieve proves this method of the invention as much more economical, because waste heat cheaper than external heat is available. A  thereby prevailing in the regeneration column lower Temperature can be increased by increasing the amount of stripping gas be compensated. Furthermore, in the known Process by the high heating of the detergent a large amount of detergent vapor in the gas contain. Thus, however, a considerable Amount of cold needed to evaporate evaporated detergent, which with the stripped components from the head of the Regenerating column is withdrawn, back to back condense. The procedure according to the invention works at lower temperatures resulting in less Detergent vapor in the stripped gas components is included, which in turn saves a cold on the Head of the regenerating column means.

The inventive method is applicable to all known pressure washes. The preferred field of application is that of acid gas scrubbing, both in the selective removal of H ₂ S and in the total removal of H ₂ S, COS and CO ₂ from gas mixtures. Another preferred application is the recovery of heavy hydrocarbons from natural gas by means of physical washes. As detergents for pressure washing all relevant detergents are suitable for selective sour gas scrubbing but especially polyethylene glycol, nitrogen and / or oxygen-containing heterocyclic compounds such as N-methylpyrrolidone and sulfur-containing organic compounds.

Especially in the desulphurisation of fuel gases used for the power generation in power plants after the gas and Steam turbine process by partial oxidation of Coal or crude oil or residual oils are produced, can with the inventive method additional effect can be achieved. The fuel gas is after desulfurization with the addition of oxygen burned, then relaxed in a gas turbine and then used for power generation. To the Firing temperature because of the sensitivity of the limit the subsequent gas turbine, the Fuel gas, as is known, with a large excess compressed air burned. It is however, irrelevant for the energy consumption, whether air or e.g. Nitrogen compressed to the fuel gas pressure become. Therefore, it is using the inventive method possible in the Desulphurization of the fuel gas in the second stage the regeneration used stripping the fuel gas admix. It can at the saturation of the Fuel gas with water vapor before entering the Combustion chamber at the same time the stripping gas with water vapor which are not saturated, in contrast to air which is not is saturated with water vapor. Thus, the Increased gas volume to the combustion chamber and the gas turbine and advantageously a larger amount of energy in the turbine generates.

It is also beneficial to leave as much CO ₂ in the fuel gas, as this lowered the calorific value and accordingly the excess air amount can be reduced. Therefore, in fuel gases, selective desulphurization is usually carried out. In such a selective sour gas scrubbing one strives to implement the H ₂ S fraction in one of the regeneration downstream Claus plant to elemental sulfur. Since the catalytic conversion of hydrogen sulfide from the equilibrium is not completely possible, it is necessary to post-treat the Claus exhaust. Therefore, it is economically advantageous to compress the exhaust gas, after conversion of the elemental sulfur contained therein and the organic sulfur compounds to H ₂ S, and in turn supply the raw gas for desulfurization in the scrubbing column. It is expedient to supply the exhaust gas to the stripping gas withdrawn from the regeneration column in front of a recycled recycle gas compressor installed in the circuit. This procedure has the advantage that in the sour gas scrubbing and the turn downstream Claus plant no emissions occur and thus no environmental pollution caused by the sour gas scrubbing.

In the following the invention is based on a embodiment shown schematically closer explained.

A raw gas ( 1 ) with the following composition

H₂S | 1.0% CO₂ 16.4% CO + CH₄ 45.9% H₂ 35.9% N₂ 0.8%

is washed in a washing column ( 2 ) at a pressure of 30 bar with via line ( 3 ) led to the scrubbing column NMP (N-methylpyrrolidone), being recovered from the top of the column pure gas ( 4 ) having the following composition:

CO₂ | 15.5% CO + CH₄ 46.2% H₂ 36.1% N₂ 2.2% H₂S 10 ppm

From the bottom of the column, the loaded detergent is withdrawn via line ( 5 ), expanded to 3.5 bar and fed to a separator ( 6 ). The thus released flue gas, with the composition H ₂ S 5.9%, CO ₂ 81.5%, CO 9.2%, H ₂ 3.2%, N ₂ 0.2% is withdrawn via line ( 7 ), wherein the partially loaded detergent is again relaxed to 2 bar and fed to a second separator ( 8 ). The expansion gas released in this second expansion, with the composition C O ₂ 91.2%, H ₂ S 8.0%, CO 0.7%, H ₂ 0.1%, is introduced via line ( 9 ) into a regeneration column ( 10 ) and used there for stripping the partially loaded detergent.

The partially loaded detergent leaves the separator ( 8 ) via line ( 11 ).

After heating against regenerated detergent in a heat exchanger ( 12 ) and against waste heat ( 13 ), the partially loaded detergent is passed at a temperature of 120 ° C in the upper portion of the regenerating column ( 10 ). In this section, the coarse stripping is carried out with the released during the relaxation uncleaned via line ( 9 ) withdrawn expansion gas.

After the coarse stripping the detergent is withdrawn from the lower part of the upper section via line ( 14 ), relaxed and fed to the upper part of the lower section. In this section, the fine cleaning of the detergent takes place in the form of stripping off the remaining dissolved gas components with pure nitrogen introduced into the lower part via line ( 15 ). From the bottom of the regenerating column ( 10 ) completely regenerated detergent is withdrawn via line ( 3 ) and, after cooling, again at the top of the washing column ( 2 ) abandoned.

The gas withdrawn from the head of the regenerating column via line ( 16 ) is cooled and separated from the condensed detergent vapors in the separator ( 17 ) with a composition of

H₂S | 47.9% CO₂ 52.0% CO 0.1%

a subsequent processing plant via line ( 18 ).

Nitrogen is taken from the upper part of the lower section of the regenerating column ( 10 ) via line ( 19 ) together with the components stripped off in this column section, cooled and fed to a separator ( 20 ). After discharge of the condensed detergent vapors in line ( 21 ), nitrogen is passed together with the stripped components via line ( 22 ) together with the expansion gas from the separator ( 6 ) in a multi-stage recycle gas compressor ( 23 ). The compressed gas mixture is then, after cooling and removal of condensed detergent vapor via line ( 24 ) back to the raw gas via line ( 25 ) admixed.

Claims (5)

1. A method for regenerating a scrubbing agent used in a scrubber wash and laden with scrubbed gas components by depressurizing the scrubbing agent to release flash gas and then stripping further scrubbed components by means of the flash gas in a regenerating column, characterized in that the stripping is performed in two stages, wherein the flash gas is used as a stripping gas only in the first stage and without further treatment. 2. The method according to claim 1, characterized that the Abstrippung in the first stage at a higher pressure than the stripping in the second stage. 3. The method according to claim 1 or 2, characterized characterized in that in the first stage stripped components in one at a Further processing adapted pressure gained become. 4. The method according to any one of claims 1 to 3, characterized in that in the second Stage used stripping gas together with the stripped off stripped components and the raw gas is supplied.   5. The method according to any one of claims 1 to 4, characterized in that washed out with Gas components loaded detergent before the Stripping the components through available warm waste heat is warmed up.