DE314216C - - Google Patents

Description

The subject of the invention is a neutral maintenance method of the type described in Patent 290509 is described, so an automatic method, by virtue of one Liquid that is brought into contact with the cleaned gas to be controlled, and their neutrality by the gas depending on its contamination according to the acidic or the alkaline side is disturbed, is used to .by their converted into mechanical movement Reaction to regulate the flow of suitable scrubbing liquids for the gas. That The principle of such a neutral holder is applied to keeping a gas neutral illustrated in patent 290509; it consists in ■ that one passes through the cleaned gas equivalent small amounts of alkali and acid can flow through separately and depending on the reaction of the gas alkaline or acidic reaction of the final mixture in a suitable manner converts into mechanical movement that increases the acidic or alkaline influx is used for washing liquid. . It's in the. Patent 290509 also already the Embodiment described in which the implementation of. acidic reaction of the final mixture in mechanical force is to happen in such a way, - that one acts as an alkaline component of the test liquid Carbonic acid alkali is used, the carbonic acid evolved during neutralization and absorbs the movements under a bell the displaced sealing liquid is transferred to contacts by means of a float, which in turn Increase or decrease the inflow of acidic or alkaline washing liquid as required.

In the further development of this apparatus and procedure, the apparatus was completely To be able to work automatically and continuously, the object of the invention created. If the two test liquids, i.e. normal acid and normal alkali carbonate, flow through a neutral gas, which has neither the acidity of the acid nor the If the alkalinity of the sodium carbonate weakens, the same amount of carbonic acid is always added Development. If you let this carbonic acid out of the developing vessel in which the two Mix the test liquids, flow them out through a capillary, this is what happens with neutral gases soon a state of equilibrium is established, which in a sense represents the zero point of the system, in which as much carbon dioxide escapes from the capillaries as in the reaction vessel is produced. For example, if the gas is alkaline, the acid test liquid reduced the acidity by the gas, and when flowing together with the sodium carbonate test liquid will produce less carbonic acid accordingly. Since the passage of the capillary remains the same, the volume of carbonic acid in the development vessel becomes become smaller, and it becomes a float connected to the developing vessel by external pressure, for example a column of water, accordingly into the vessel moved in. This movement can be controlled in a known manner on appropriate flow regulators for the washing liquids to be transferred.

In the following drawings, a suitable one for executing such controller movements is shown Apparatus outlined. In Fig. 1 is located

^x the reaction vessel b is built into a glass cylinder a and connected to it is the float vessel c in which the float d slides. The inlet capillaries e and e ' lead to the reaction vessel through which the normal acid and normal alkali are introduced after they have removed the purified gas, for. B. have happened in a branch line. The liquid speeds ^N f unite in a small reaction chamber, the carbon dioxide developed in which. In order to make the reaction complete, the liquids draining from the vessel f are also poured over a layer g, e.g. B. of glass beads. The outer cylinder α is filled with a barrier liquid up to the overflow h , and in order to maintain the level, it can be kept filled by a continuous supply of water. The carbon dioxide escapes through the pipe i into a drip catcher k and from this through the capillary I into the open. If more carbonic acid is now developed in the reaction vessel b, f, g than corresponds to the normal passage of the capillary /, an overpressure arises in the gas space of the vessel δ or the vessel c connected to it and the / float d sinks. Its movement can be controlled by a suitable linkage, e.g. B. can be raised on both sides of the vessel b , are transferred to the inlet valves for the washing liquids. In Fig. 2 a device is also shown to convert the possibly weak movements of the swimmer d into larger movements, which can develop greater mechanical force at the same time. In Fig. 2, m is the float rod which is moved by float d (Fig. 1) in any suitable manner. This rod m acts η by stops and n 'on valve stems 0 and 0' such that, for example, in the ascent of the rod m the valve rod 0 with its valve lift, during descent of the float rod m the valve rod 0 'with its valve is lowered. The valve belonging to the valve rod 0 opens the water flow to a cylinder q equipped with a float / »when it is raised, so that in this case the float p rises; the valve rod 0 ' opens when the

Float rod m is a discharge valve through which liquid can flow out of the cylinder q , so that the liquid in q and with it the float f sinks.

In the following, a particularly proven method of operation with the apparatus described according to FIGS. 1, 1 will be explained using an example. One equivalent of caustic alkali solution and about 3 equivalents of dilute sulfuric acid are allowed to trickle through the gas to be tested, and these are then combined with about 3 equivalents of soda solution in the reaction vessel. The outflow capillary I, which can also be replaced by a finely adjustable stopcock or the like, is set so that with a neutral gas, i.e. when a certain and constant amount of carbonic acid is developed per minute, a certain pressure in the development vessel and thus a sets certain float position in such a way that the water level in the vascular system b, c is pressed down by a certain amount against the outer mirror. If the gas now contains a trace of acid, this is added to the acid flowing through and is bound by the alkali, and as a result more carbonic acid is developed. Pressure builds up and the mirror in vessel b is pushed down a little further. This movement is followed by the float d, which now has a throttling effect on the inflow of the acidic washing liquid, for example with the aid of a miniature motor, the contact of which closes its movement. This will continue until the equilibrium between the carbonic acid escaping / escaping and the carbonic acid developed in b is restored and the swimmer returns to its original normal position. The same game is repeated in reverse in the presence of ammonia in the gas until the ammonia disappears completely. In the same way, of course, by setting the valves or the gas outlet accordingly, the control can be set to a specific acidity or alkalinity.

Claims (4)

Patent Claims: 1. Procedure for automatic neutral maintenance, in particular for setting the Reaction of gases to be washed with normal liquids or mixtures of liquids release carbonic acid after contact with the purified gas, and the volume of the released carbonic acid after Implementation in mechanical movement to control the inlet valves for the washing liquids is used, characterized in that the mixture of test liquid ■ speed is chosen in such a way that carbonic acid is always developed, even with neutral gases and this carbonic acid is continuously released under constant pressure, whereby In the case of neutral gases, a certain zero point (neutral point) of the barrier fluid or one of these moving swimmers results. . 2. Embodiment of the method according to claim 1, characterized in that one first part of the alkali and the .Acid in excess separated by the Let go of the gas to be kept neutral, these streams then combined and the acidic Then let the mixture act on excess carbonate. 3. Embodiment of the method according to claim 1 and 2, characterized in that that the movements of the swimmer do not directly affect the valves for the washing liquids are transferred, but first the inlet and outlet valves of one control another float vessel, whose float in turn only the valves for the washing liquids-moved directly or indirectly. 4., The method according to claim 1 to 3, characterized characterized in that one by arbitrary choice of the outlet opening for the carbon dioxide (claims 1 and 2) or by arbitrary setting of the stops of the first float on the inlet and outlet valves of the further float vessel (claim 3) not to the zero point of neutrality, but adjusts to any chosen degree of acidity or alkalinity. 1 sheet of drawings.