DD277378A3 - Method and apparatus for the expansion of steam-gas mixtures for analysis purposes - Google Patents

Abstract

The invention relates to a method and apparatus for condensate-free expansion of superheated steam-gas mixtures for analysis purposes, in particular for the quantitative determination of the oxygen content in gas mixtures. The aim is to provide an unadulterated analysis gas without additional technical expenses. The invention has for its object to relax superheated steam-gas mixtures condensate-free and provide condensate-free for analysis. According to the invention, the vapor-gas mixture at the temperature prevailing in the pressure chamber is condensate-free to atmospheric pressure and heated by indirect heat supply from the steam-gas mixture flowing in the pressure chamber again. The expansion cross-section of the throttle element is dimensioned so that the vapor-gas mixture is at a temperature of at least 20 K above the Wasserdampftaupunktes at atmospheric pressure for analysis. According to the invention, a capillary restrictor forms the end of a pipe socket projecting into the pipe, the open end of which is connected to the low-pressure system via a shut-off valve and which is inclined relative to the horizontal. figure

Description

For this 1 page drawing

Field of application of the invention

The invention relates to a method and a device for the expansion of superheated steam-gas mixtures for analysis purposes, in particular for the quantitative determination of the oxygen content in gasification mixtures.

Characteristic of the known technical solutions

Pressurized gas-vapor mixtures usually have to be depressurized to normal pressure for analysis purposes. For this purpose, the mixture is removed via an external gas sampling nozzle from the Tachnian pipe or the apparatus and with one or more downstream throttle bodies, such as. B. reducing valves, throttle valves or capillary throttles provided in the desired amount at atmospheric pressure. Since the gas quantities required for the measurement are low, the gas already on the way to the throttle body normally cools down so far that the dew point is undershot, especially at high Wasserdampfpartialdrücken and pressures and water condenses out. Depending on the arrangement of the gas sampling nozzle, the condensed water flows either back into the technical pipeline or together with further nachkondensierendem water through the throttle body in the analysis gas. Accordingly, too high or too low gas contents in the analysis gas, whereby the determination of the gas content is falsified. This problem occurs especially in the control measurement of the composition of the gasification agent of the fixed bed pressure gasification with Hiife the condensation method. The gasification agent, which consists of about 88-92VoI .-% of steam and about 8-12 vol .-% of technical oxygen and is present at about 2.7 MPa and 250 to 35O ⁰ C, is in an amount of about 0, 5 to 1 m ³ i _N / h relaxed to atmospheric pressure and cooled indirectly with cooling water. By measuring the amount of water and the volume of oxygen in a given unit of time, the composition of the gas is determined and compared with the operational values of the aperture measurement of steam and technical oxygen. However, the errors that arise when using the condensation method, but are so large that a control of the aperture measurement is not possible.

The causes of the errors were primarily seen in the volume or volume measurement, without paying attention to the problem of water vapor condensation before the relaxation.

The known technical solutions for preventing premature condensation are measures for heat insulation or for additional heating of the removal device. These measures are either not reliable or associated with very high technical effort, especially in the relaxation of low amounts of steam and gas.

Object of the invention

The object of the invention is to provide an unadulterated analysis gas for the quantitative determination of the gas content of pressurized, superheated steam-gas mixtures without additional technical expenditure.

Explanation of the essence of the invention

The invention has for its object to relax superheated steam-gas mixtures condensate-free and provide condensate-free for analysis.

The solution according to the invention is characterized in that the vapor-gas mixture at the temperature prevailing in the pressure chamber is condensate-free to atmospheric pressure and heated by indirect heat from the flowing in the pressure chamber superheated steam-gas mixture again up to the temperature before the relaxation in that the amount of the expanded steam-gas mixture is adjusted by adjusting the expansion cross-section of the throttle element so that the vapor-gas mixture at a temperature of at least 2OK above the Wasserdampftaupunktes at atmospheric pressure is present for analysis that the throttle element the conclusion of a in forms the pressure chamber sufficiently far projecting and tightly sealed with the pressure chamber wall pipe socket and that the other, open end of the pipe socket is in direct communication with the analysis system at atmospheric pressure.

As throttle elements both Fe3t and adjusting throttles come into question. In order to avoid the entry of condensate, which flows in certain operating situations, especially along the pressure chamber wall, to install the throttle element at a sufficient distance from the inner wall. The pipe socket is therefore also designed with a minimum inclination to the horizontal, with the throttle element is located at the top. To avoid contamination or dislocations, the throttle element can be protected with an upstream filter. In the manner according to the invention, the condensate-free expansion of the vapor-gas mixture at its own medium temperature is carried out without additional technical equipment.

Due to sudden dew point reduction due to the reduction of the water vapor particle pressure leaves the relaxed steam-gas mixture in strongly superheated state of the pressure chamber. The located in the pressure chamber part of the pipe socket serves at the same time for indirect heat transfer to reheat the cooled during the expansion gas. To increase the heat transfer surface of the pipe socket can be designed as a corrugated pipe or equipped with additional Heizrippan. The expansion cross-section of the throttle element is adjusted so that the steam-gas mixture mi ':' is present at a temperature of at least 2OK above the Wasserdampftaupunkt at atmospheric pressure for analysis. Thus, one more low cooling can be allowed in the analyzer, without it being possible for a falsification of the composition of the analysis gas due to the condensation of water vapor.

In the manner according to the invention, on the one hand, significantly greater heat losses can be permitted on the outer pipeline and apparatus parts, without the dew point of the gas being exceeded. On the other hand, with good heat insulation, even small amounts of gas, such as are required for analysis purposes, can be provided without condensation and without distortion.

embodiment

The invention will be explained below using an exemplary embodiment. The accompanying drawing shows the principle of the device according to the invention.

A gas quantity of 2 m ³ / h shall be provided from a technical pipeline (1), with which the gasification agent is fed to fixed-bed pressure gasification, condensate-free to atmospheric pressure and condensate-free for an analyzer.

The gasification agent is based on the following parameters:

Pressure 2,7MPa

Temperature 32O ⁰ C

Composition 10 vol .-% technical oxygen

90 vol.% Steam

Diameter of the technical pipeline: 200mm.

Through the flange (2), which goes off with an inclination of 20 ° to the horizontal of the technical pipeline (1), the pipe socket (3) with the clamping flange (4) and the capillary throttle (5) protrudes through an attached filter (6) is protected from contamination, down to the middle of the technical pipeline (1). The capillary throttle (5) is sized with an opening diameter of 0.5 mm so that the required amount of gas of 2 m \ _N / h with a temperature of 140 ⁰ C adjusts to the analyzer. The clamping flange (4) is pressure-tight between the pipe socket (2) and the shut-off valve (7) clamped. The shut-off valve (7) is fully open when the gas is exhausted.

By good heat insulation (8) of the outer pipe parts, the expanded gas cools to the sampling nozzle (9) only slightly. The gas can be analyzed in the overheated state.

Claims (4)

1. A method for providing an undistorted analytical gas for the quantitative determination of the gas content of pressurized, superheated steam-gas mixtures by relaxation to atmospheric pressure by means of a throttle element, characterized in that the steam-gas mixture at the prevailing temperature in the pressure chamber condensate-free to atmospheric pressure is relaxed and heated by indirect heat from the steam-gas mixture flowing in the pressure chamber and that the amount of the expanded vapor-gas mixture is adjusted by adjusting the expansion cross-section of the throttle element so that the steam-gas mixture at a temperature of at least 2OK above the Wasserdampftaupunktes at atmospheric pressure for analysis is pending. 2. Apparatus for carrying out the method according to claim 1, characterized in that the throttle element forming the capillary throttle (5) forms the conclusion of a in the pressure chamber of a technical pipeline (1) preferably up to the middle and tightly sealing with the pressure chamber wall pipe socket (3) and that the other open end of the pipe socket (3) is connected to the low pressure system via a shut-off valve (7), that the pipe socket (3) is inclined against the horizontal or vertical, wherein the capillary throttle (5) is located at the upper end , 3. Apparatus according to claim 2, characterized in that the capillary throttle (5) is designed both as Festals and as an adjusting throttle. 4. Apparatus according to claim 2, characterized in that in the technical pipeline (1) projecting part of the pipe socket (3) designed as a corrugated pipe or equipped with additional heat transfer surfaces.