DE219311C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- JVl 219311 - CLASS 46 «. GROUP

GUSTAV MEYERSBERG in BERLIN.

Patented in the German Empire from February 1st, 1906.

With gas engines, regardless of whether the ■ energy contained in the combustion gases in the form of flow energy (gas turbine) or in the form of pressure on a reciprocating or rotating piston is exploited, compressions of gaseous bodies to higher pressure are necessary. For the latter come into consideration: the required for combustion or explosion

ίο Air, also the fuel gas, if not a liquid one or solid fuel is used, and the gaseous products of combustion, provided that the expansion is completed below atmospheric pressure and provided that they are not condensed by cooling. These compressions are often outside the actual engine completed.

So far, in such cases, the

ao to compress gases directly by allowing a compression piston to act or the compression took place in a rotating compressor. This procedure is not perfect. The reciprocating compressor becomes large in size and complicates the whole Furnishings. The rotating compressor is also given significant dimensions, especially if a larger number of stages is necessary due to compression to higher pressure; besides, the efficiency is also not cheap. The latter point is of particular importance because of the degree of effectiveness the whole working process of the gas powered machine is influenced to a great extent will. The losses in the compressor are not simply dependent on the theoretically achievable power to withdraw the gas engine; rather, there are also the losses that in which work-performing parts of the machine for the compressor power arise. the Losses in the compressor can therefore be felt in two ways.

These difficulties can be avoided by not using the gases directly compresses, but pushes in a liquid as an intermediate medium, d. H. used a hydraulic compressor. Liquids, especially water, have a significantly higher specific weight than gases. The apparatus are therefore given a smaller volume; they also work with lower losses.

The work process is set up in such a way that the necessary for compaction Energy in the form of kinetic or potential energy of the liquid in particular, without the presence of the gases. For this purpose one can get the liquid in quick Shift the flow or bring it to a higher pressure and let it flow out, or otherwise supply them with energy. Thereupon the gas is in such a way with the liquid brought into contact that they release their kinetic or potential energy to it can. You can z. B. let the gas suck in through the liquid or be carried away leave, or you create gaps in the liquid column or the liquid

fluid flows into which the gas penetrates, inter alia. m. The liquid gives its energy again by reducing their flow velocity in the presence of the gas and is transformed into pressure, or by compressing the gas, from a height of gradient descends.

Such methods and apparatus for carrying out such methods are on

ίο known. In the application of the same Gas-fired engines are a technical advance to the extent that there is gas-fired engines it is particularly important to generate high pressures using simple devices can.

It is also known to use the natural hydraulic gradient of water for compression of the cargo components as well as the cargo itself to be used for gas engines.

But if you were to use a natural height gradient for compression, the Purpose of the invention to obtain a compensatory and less extensive facility, cannot be achieved. The compression pressures required to operate such machines are quite significant. Even the compression of the exhaust gases generally reaches more than half an atmosphere. Consider now that when using pure vertical drop a column of liquid is required that is at least ten Meters per atmosphere must be, it follows that the use of a natural Slope does not correspond to the intention on which the invention is based. It is Hence the energy of the liquid is necessary; which is used for compression artificial way, ζ. Β. by a pump, etc., to be supplied. The space requirement is then significantly less than when natural gradient is used. The establishment is E.g. also applicable for transportable engines, gas locomotives, gas locomotives etc. Once the compression is complete, the fluid can be brought back to the point where it was again Energy received so that the energy contained in it after the compression nooh again is recycled. The transfer of energy from the liquid to the gas can do so be set up so that there are only minor losses.

Claims (1)

Patent claim: Gas engine with hydraulic compressor for compressing the air, of the gas or the combustion gases, characterized in that the compression liquid with the required energy (kinetic or potential) in an artificial way, i.e. not through the natural gradient is taken care of.