DE222786C - - Google Patents

Description

IMPERIAL

PATENT OFFICE

The present invention relates to a method for cooling compressed air or compressed gas by means of a cooling liquid injected during compression and is characterized in that. Glycerine is used as cooling liquid, which is used to dry and clean the compressed gas at the same time.
The accompanying drawing shows a device for carrying out the new method in a schematic representation.

Fig. Ι is a top view of the device for compressing the air. Fig. 2 is a longitudinal section through the container in which the separation of the compressed air from the injected Coolant takes place. Fig. 3 is a longitudinal section of a cooling container for the cooling liquid of the gas to be compressed;

The piston of the compression cylinder C is moved by a crankshaft B , which is driven by a steam engine A. The gas to be compressed, ζ. Atmospheric air, to about 6 to 10 atmospheres. condensed. The compression cylinder is provided with an air inlet c and an air outlet c ¹ . A container D is connected to the compression cylinder by a pipeline E , which is traversed by a cooling coil d through which an appropriate coolant flows in order to keep the coolant, glycerine, filled into the container D cool. The outlet pipe c ¹ opens up into a container F, which is equipped in its interior with mutually offset baffles f (Fig. 2), which have the purpose of separating the incoming air glycerine mixture into its components, air and glycerine. A connecting pipe G leads from the bottom of the container F to the bottom of the container D. A pipe H leads from the top of the container F to the expansion cylinder /, which is provided with an outlet pipe K in a known manner.

The procedure is expediently carried out in approximately the following manner: First, the container D is filled with glycerine and the coolant is turned on through the pipe coil d . Then the machine A is started and the compressor C is brought into operation. With each stroke of the compressor piston, air is drawn into the compressor through tube c and glycerine through tube E. The glycerine mixes with the air and absorbs the heat generated during compression, while drying and cleaning the compressed gas. The glycerine also provides a good seal between the piston and the valves and also ensures that the air is completely evacuated from the compression cylinder. The mixture of compressed air and glycerine passes through the pipe c ¹ into the container F, in which the glycerine with the water and the impurities on the baffle plates f are separated from the compressed air and collect on the bottom of the container F , from where they pass through the Effect of the compressor piston through the pipe G into the glycerine container D can be sucked over with each stroke of the compressor piston. The printing

Claims (1)

air passes from the container F through the tube H into the expansion cylinder /, in which it does work by expanding down to atmospheric pressure, which can be used to support the steam engine in an appropriate manner by z. B. connects the piston of the expansion cylinder to the shaft B by means of a connecting rod and crank. If desired, the dry compressed air from the container F can also go into a surface condenser, which is not particularly shown in the drawing. Suitable, automatically acting valves must of course be switched on in the individual lines. The arrangement is also such that the crank for the compressor piston leads the crank for the steam cylinder piston in order to allow the greatest possible pressure to act on the compressor piston when it ends its stroke. If the glycerine is saturated with water after prolonged use, it is drained from the container D and the water is expelled by heating. The glycerine purified in this way is then returned to the container D to be used again for the compression of the air. In this way, practically speaking, any loss of glycerine is prevented. The exhaust air emerging from the expansion cylinder / exhaust air can be let into an insulated pipe through outlet K , through which it is directed to the points of consumption. The mixture of gas and glycerine in the compressor forms an essential feature of the present invention. Inventor has found through practical experiments that if one Exposing air or gas to the action of glycerin during compression, in fact all impurities are removed from it with simultaneous cooling and drying. this applies particularly to coal gas, oil gas, coal gas, etc. These gases contain 45 known apart from water vapor among other things ammonia, tar products and hydrogen sulfide gas, which admixtures, as practical tests have shown, actually through the Glycerine or the water it has absorbed must be removed. The tar products combine mechanically with the glycerine and are separated out by "settling". That Water can best be removed from the glycerine by heat and vacuum thickening 55 will; this separation of the water also decreases the ammonia and hydrogen sulfide impurities with away. Dust is also removed, apparently by adhering to the very fine droplets of the atomized 60 Glycerine. Sponsor ν T-A NSPR u CH: Method for cooling compressed air or compressed gas by means of a during the Compression injected cooling liquid, characterized in that as the cooling liquid Glycerin is applied, which is used simultaneously to dry and clean the compacted Gas serves. 1 sheet of drawings.