DE330193C - Method and device for liquefying ammonia gas - Google Patents

Description

Method and device for. Liquefaction of ammonia gas after Patent 305916. It is known that ammonia gas is used in refrigeration systems that work with ammonia at high temperature and at a pressure of about 12 atmospheres in a condenser recorded, iri which it is cooled and liquefied to be in this form as Means to serve to extract heat from the bodies to be cooled !. In the main patent a process is described: by means of which the liquefaction of the annmoniaks or equivalent gas faster with a smaller cooling and condensation surface than could be achieved until then; the procedure is based on a peculiar one Application of the countercurrent principle for heat exchange. The hot ammonia will introduced from below into the condenser pipes, which are sprinkled with cooling water, and in this way comes into contact with some of the already liquefied ammonia and mixed while the liquefied ammonia drains at the top. . The condenser consists expediently of one or more rows of stacked, approximately horizontally running pipes that are connected to each other in a zigzag connection so that the gas introduced into the lowest pipe warmed the most of the one Water that, but. can still dissipate heat, is washed around, while @ the above draining Liquid is under the influence of the coolant, which is still completely cold. the Heat transfer is particularly still due to the rise of the gas flow within the already formed liquid, which takes place in the form of bubbles, is promoted, by creating large heat exchange surfaces for the gas in this way.

According to the invention, the effect is further improved thereby; that at the same time with the hot gas still special liquefied gas in that already liquefied gas is introduced, and that the Zusatzflüsgkeit is previously in the Gas flow initiated; parts of what has already been liquefied are expediently used for this purpose Gas to. Use. It has been shown that the efficiency of the condenser is essential is increased if some of the liquid formed is at or near the point of entry of the hot gas is reintroduced and thoroughly mixed with it.

Another important improvement is that the Gas is introduced into the condenser at an increased rate. Serves for this expedient one Nozzle, which -in the supply line before the entry point is built in. This nozzle can be viewed as a kind of injector as the gas by means of this is blown into the condenser at such a high speed, that it flows up through the liquid and leads the latter beyond the point, at which the liquefaction is complete.

Such injector nozzles are also suitable for another purpose of no small importance. In large systems in which a large number of Rows of tubes provided side by side. the openings of the nozzles be coordinated so that each unit, i. b. every row of pipes stacked on top of each other, a really proportional amount of gas is supplied. so .that .an even Operation is guaranteed for all units. There is then no need for any regulating valves to adjust the gas quantities flowing into the individual units which is beneficial, as the setting of such valves is due to carelessness or chance can easily be changed, resulting in an unequal distribution and leads to a deterioration in the overall effect.

Such nozzles can be arranged in each feed line of the condenser be, so both in the supply lines for gas and those., through which .the additional liquid is supplied.

The rows of pipes of the condenser are expediently provided with liquid closures, which can be produced by pipes that are lowered and raised again. she are connected to the top pipe of each row and prevent escape of any gas that has remained uncondensed. There is a similar facility in front of each lower pipe to allow the liquefied gas to flow back into the supply pipe to exclude.

The details of those used to carry out the new procedure Devices are illustrated in an example on the drawing.

Fig. R shows the side view of a condenser, which consists of a unit, d. H. Row of horizontal tubes stacked on top of each other, which are at.ihren ends are interconnected by elbows.

Fig. A shows the lower part of the device on an enlarged scale and - partially in section in order - to illustrate the arrangement of the nozzles more clearly.

The actual * condenser consists of superimposed, whole or approximately horizontally arranged pipes of the same length, which are zigzagged connected to a snake A. The number and length of the pipes depend on the respective requirements; several such units can also be placed side by side be provided.

The lowest pipe All is connected to a vertical = right pipe BI, which in turn is connected to an upper distribution pipe F.

The hot gas is voil a compressor (not shown) in the pipe B "is pressed upwards in the direction of the arrow and occurs after flowing through the check valve C into the distribution pipe B, from which it passes through the shut-off valve BZ and the Pipe B1 'flows to the lowest condenser pipe A = °. Rises within the condenser it now in sequence upwards through the various horizontal pipes, and there a copious amount of cooling water supplied by means of the supply pipe M and the distribution pipe N flows in, trickles down the outside of the pipes, the gas is initially cooled and then condensed, the excess heat being transferred first to the most heated Water is released, which is about in the two lower pipes, and after further cooling, the liquefaction occurs approximately at pipe All. In some In some cases, it may be useful to add additional amounts of gas. introduce what to do with Example of the drawing for Rohr Al 'is made. The elbow is at this point provided with an inlet opening to which a nipple Be and a valve B 'are attached are; these parts are in turn connected to pipe B1 by means of a T-piece and thus form a branch line for additional gas supply.

The liquefied gas and the freshly entering hot gas permeate each other intimately within the condenser and form. a vivid mixture of gas and liquid, which so. long rises upwards until the on the outside of the. Pipes exerted cooling effect has precipitated all the gas. It is advisable, to arrange it in such a way that the complete liquefaction is already below the uppermost Rohres is terminated, so that the liquid is cooled more effectively and on a is brought to a lower temperature than is possible if it is immediately after your Education is dissipated. This leads to one of the most important features of the present-. the invention, namely the fact that a certain amount of the liquefied Gas remains permanently in the condenser, by means of which a more rapid and perfect Heat exchange is effected, for it only needs to be remembered that ' the heat transfer from liquid to liquid is more efficient and economical than that takes place from gas to liquid.

The discharge of the liquid from the condenser takes place by means of the pipe D1, the shut-off valve D2, pipe D ° and the liquid seal, which is formed by the latter and the pipe D ' ; further the liquid passes through pipe D 'to the receiver or tank P.

E3 is a tap of the siphon and connects the highest point the latter or the liquid seal. with the equalizing pipe E; - this Line ensures the regular and constant flow of the liquid through the pipeline forming the closure. .

At the lower end of the pipe D 'is a T-piece - the one with a Shut-off valve D1111 fitted pipe DI connected to a horizontal pipe leads. The latter is in connection with a cross tube D3, which in turn means Ales short pipe D3 and - the associated - shut-off valve D4 with the lowest Tube A2 ° of the condenser is connected. The connection of the pipe D ° can by means of a special connector A21, which is essentially T-shaped, and has a flange at one end.

Inside part A21 at the flanged end is a Injector nozzle A22 attached; this has a twofold purpose: first, it serves -to increase the speed of the entering gas caused by the constriction of the passage cross-section is effected, then it works as an injector in the actual Senses. It should be noted that the entry point into the condenser tube the nozzle A22 is opposite, and that the gas blown out of the latter overflows sweeps the mouth of the tube through which the liquid is supplied; the Liquid is thus carried away from the pipe D3 and in the process in a spray or small balls, atomized as well as thoroughly mixed with the gas, taking their speed also experiences an increase through the injector.

The intimate mixing of gas and liquid lasts during the passage through the whole part serving for the suppression: the condenser on, and this Mixture is pumped through the injector. the only one from the connector and the parts attached to it is formed.

It is also noteworthy that the end of the tube D3 does not extend to the gas flow reaches the nozzle; rather it has been shown; that the gas velocity anyway large enough to produce effective suction.

The horizontal pipe, which connects the pipe D ° with the cross pipe DB, leads to the wider drain pipe D'r, which is connected to the tank P via valve D'l stands. The horizontal pipe contains a shut-off valve between pipes D5 and D7 D °, so that under ordinary circumstances the liquid flowing down through pipe D ° can be kept away from the spout entirely while the connection is made when a complete emptying of the condenser is desired. In this case the large valve B =, which allows the hot gas to enter the condenser regulates, as well as valve Dl "and valve D = closed, while D 'is open; the The liquid contained in the condenser then flows through valve D4, pipe D8, valve D3 into the transducer P.

A compensating pipe E is arranged above the condenser, which is connected to all units by means of pipes El and. Valves E = is connected, and on the other hand by means of the pipe E3 with the liquid discharge pipe and through a pipe lz and valve h3 with the tank mentioned several times in connection. It is desirable that during the entire operation of the system the passage through the equalizing pipe and the connecting pipelines remain free at all times, but it must not be overlooked that when one of the condenser rows is emptied, a pressure is maintained in this subsequent equalizing pipe. which is equal to the pressure in the other parts of the condenser and in the transducer. If it is necessary to remove a condenser row or unit that has been drained, because a part thereon has to be repaired, for example, it is necessary to pump out this unit beforehand. This purpose is served by the tube hl, which is connected on the one hand to the pipe da and on the other hand to the suction side of the compressor. The valves E4 and h3 as well as the valves EZ are to be closed on all units not to be pumped out, furthermore the valves B2, D4 and D "of the units to be pumped out, and a few strokes of the compressor are then sufficient to effect the gas evacuation, whereby to note that the pressure reduction need not be driven significantly below atmospheric pressure.

The drum G, which is connected to the equalizing pipe E, is used in addition, from the latter and all other parts of the condenser the naturally after Above rising non-condensable gases accumulate around in the device available.

With regard to the above-mentioned liquid seal, the drainpipe is provided, it should also be noted that these, inadvertent leakage of the liquid prevents and ensures a regular, steady flow of the liquefied gas, apart that it prevents the escape of uncondensed gases; the line connected to the liquid seal, the so-called siphon breaker, at the same time prevents the possibility that all the liquid from the condenser expires, which is of some importance, for it has been considered desirable and found almost necessary that liquid remains in the device at all times.

With regard to the injector nozzles, it should also be mentioned that such a nozzle can also be switched on between the valve B- and the nipple B ° .

Claims (7)

PATENT CLAIMS: i. Process for liquefying ammonia gas according to Patent.305gi6, characterized in that in the lower part of the liquefaction device introduced gas stream liquefied gas is supplied, which is to be liquefied with the Mix the gas as intimately as possible. 2. The method according to claim i, characterized in that that the velocity of the gas or the mixture of gas and liquid is increased upon entry into the liquefaction device. 3. Device for Execution of the method according to claim i, characterized in that on the gas supply pipe (B1) at or near the point of entry into the condenser one with a liquid source, expediently with the part of the device containing the already liquefied gas connected line (D3) is connected. 4. Apparatus for carrying out the method according to claim i and 2, characterized in that in the gas supply line before the Entry point into the liquefaction device, optionally in any gas or A nozzle (A22) provided with a constriction is used for the liquid supply line is. 5. Apparatus according to claim 3 and 4, characterized in that the nozzle the gas supply line and the pipe connection for the additional liquid to one kind Injector (A21-) are combined. 6. Apparatus according to claim 3 and 4, characterized in that that the nozzles of the supply lines of several rows of pipes connected next to one another are matched with regard to their passage openings that the gas supply to - all rows of pipes in the same or some other specific ratio he follows. 7. Apparatus according to claim 3, characterized in that the gas supply line (Bl) a gas inlet pipe (B8) branches off, which is connected to the pipe coil between whose beginning and end is connected, so that in addition to the mixture of gas and liquid Unmixed gas can also be added if desired. .