DE482957C - - Google Patents

Description

Method and device for the automatic regulation of the gas calorific value in gas generation plants It is well known that a completely irritant gas is never supplied to the consumers, but rather it is mixed with other gases. However, since this mixed calorific value should remain constant, it would not suffice if the I-Teizgases from the heating flues penetrate into the chamber or retort of the production furnace, but more or less quickly, depending on the suction vacuum, the freshly produced gas from the main gas suction from the production plant is removed. Depending on the size of this vacuum, a certain calorific value will be set, which corresponds to the admixture of the furnace gases.

Keeping this calorific value constant has so far been achieved by that the well-known circulation regulator, which controls the suction of the main gas suction device, adjusted by hand. If the suction is now greater than permissible, then the must The circulation regulator reacts immediately and thus again transport more gas behind the gas suction device. However, this immediate reaction is not possible if the setting of the Circulation regulator is done by hand, for example when the circulation regulator with weights is charged, because in this latter case, the gas calorific value change becomes much noticed too late, so it is quite possible that the source of the error has already been eliminated and the readjustment may regulate the wrong calorific value again will.

There is thus the regulation of the calorific value on a quantity regulation, on regulating the amount of nitrogen-containing gases added, quite regardless of whether the furnace is a retort or chamber furnace.

NTun are processes for the automatic regulation of the gas calorific value known in gas generation systems in which the developed by a test flame Heat is converted into work and used to operate a throttle device. However, this method has considerable disadvantages caused by the present Invention to be remedied. So have i.a. these known systems have the disadvantage that they are exposed to wave-like fluctuations that cause the Circulation controller can be achieved.

The present procedure now consists of (let out the test gas for the actuation by means of a small specially built-in fan immediately behind the gas generating furnaces removed -ei-ein, t, exactly adjusted to pressure and as etp otönneterflamme in a protected, partially open cavity under your water tank is burned. An optical scale is provided for visual control, while the protected one Cavity prevents the. Burner nozzle contaminated by external Schinutz and dust and therefore the flame can be affected.

On the drawing there is an exemplary version of one of yours procedure working system shown, namely Fig. i the built-in gas calorific value controller in a gas generation system (shown schematically), Fig. 2 the gas calorific value controller in longitudinal section and Fig. 3 the circulation controller of the gas calorific value controller in the form in which it can be used to attach to existing circulation regulators, in longitudinal section.

The automatic gas calorific value controller consists of several related Share: the fan i, the gas cleaner 2, the jet photometer 3, the steam and Air pressure generator q. and the circulation regulator 5.

As is well known, a gas generating plant consists of the gas generating furnace a, the main line b, which conducts the gas through the cooler c and the main suction device d to the cleaning and storage devices.

A small fan i removes this system through the pipeline 6 of the main line b directly behind the gas generating furnace a a sample amount fresh generated gas, the same passes through the cleaner 2 and the line 7 to the jet photometer 3 to. The fan i, the gas cleaner 2 and the jet photometer 3 are known Facilities or replicas of known devices in necessarily reduced Scale according to the new purpose they serve here.

In the partially open cylinder space 3, desietphotometer3, an expediently subdivided water container 8 is installed, which continues upwards and whose specific content is partially evaporated by the test flame. The steam rises through the pipe 9 into a cylinder space io which is closed off by a piston ii. This piston is extended downward like a tube and, with this extension 11, is immersed in a barrier liquid 12. As a result of this limitation, the piston ii is driven upward as the amount of steam increases and drives the air out of the cover part 13 of the steam and air pressure generator d L in accordance with its movement. A pipe 14 connects the steam and air pressure generator with the actual circulation regulator and thus directs the pressure from the pressure generator d. squeezed out air into the corresponding receiving space of the circulation regulator 5. The circulation regulator consists of a ring-like container 1 5, which is expanded at the lower part and through whose central opening 16 a rod 17 passes, to which the circulation regulator valve plate t8 is attached and which, on the other hand, to a ", chwiitimglocke i9 is screwed on. The lower part of the floating bell 1g is again in a sealing liquid 12 since an annular float 19Q and thus prevents the mutual passage of air or gas. The floating bell i9 floats in the .Barrier liquid and on the gas pressure of the pressure side of the Main sucker d.

When air passes from the pressure generator ¢ into the circulation regulator 5 the same presses the bell i9 into the barrier liquid and the valve 18 gradually reduces the free passage cross-section until it is completely closed.

The controller described above thus becomes the control of the circulation valve on the main suction device d directly under the influence of the calorific value of the fresh generated gas .brought. But now the existing one for existing systems Circulation regulator can be used is the one shown in Fig. I and 2 den Circulation regulator has also been executed in another form, which it allows it to be attached to bckainitc circulation regulators, in this way. the valve stem 17 no longer actuates the valve directly, but rather with the one in the existing circulation regulator existing Velitilstan.ge can be coupled. This is the case with almost all circulation regulators possible, cla dieselheil ritt (-possess externally arranged weight load, its effect through the connection of the new circulation regulator 5 as a result of the '' v``bitung the regulator bell with the valve rod t; can be increased and expanded. The circulation regulator this design contains the same principle, but is different in its extent and its Modified shape so that it can be conveniently installed in less accessible places can be.

As with all controllers, it is necessary to have all of the different locations Safety measuring instruments are to be arranged. The attachment of these fittings is aimed depending on the type of construction. Filling funnels also belong to these fittings. Expiration and observation window.

Compared to the schematic representation according to Fig. I, the structure the entire system every sequence and room change that appears appropriate be made. So z. B. (read Jetpltotometer with the pressure generator 4 in in the immediate vicinity Cases the long gas line 7 saves and: read gas burned earlier, so that also the kegler effect with appropriate expansion of the pressure line between the pressure generator : 4 and your circulation regulator 5 takes place earlier, so an earlier influence on the Gas production gains and thus the duration of any calorific value fluctuations that may occur can shorten.

Claims (3)

PATE NTAN PRi7CHE: i. A method for the automatic control of the gas calorific value in gas generating plants, in which the heat developed by the test flame is converted into work and used to operate a throttle device, characterized in that the developed heat is used to generate steam in a steam and air pressure generator, the steam of which is supplied by an as Piston designed diving bell generates an air pressure, which in turn acts on the diving luck of a circulation regulator, which thereby controls a circulation valve. 2. Device according to claim i, characterized by a steam and air pressure generator (4), its partially subdivided water tank (8) in the combustion chamber of the jetphotometer protrudes and from which the water vapors through a pipe (9) into the interior (io) a plunger piston (i i) get, its plunger bell (i io) in a barrier liquid and the one raised by the water vapors in the air-filled lid space (13) Air pressure is generated, which is transmitted through a line (14) to the circulation regulator (5) will. 3. Apparatus according to claim i, characterized by a circulation regulator (5), in its ring-like container (15) filled with sealing liquid, a diving bell floats, on the outside of which the compressed air from the pressure generator (4) acts in such a way that that the diving luck descends, whereby it is through a valve rod (17) in the central opening (16) of the circulation regulator (5) the valve disk (18) of the circulation valve closes more or less according to your respective pressure.