DE132299C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

CLASS / St.

u ■ '/ ■

The aim of the present invention is to utilize the heat of the operating steam as completely as possible. For this purpose, the considerable amount of heat contained in the exhaust steam is, for by a suitable W ^r ärmevermittler. B. absorbed by air or by another gas and z. B. transferred to the water intended for the production of operating steam for the purpose of evaporation of the same. This is achieved by the fact that the heat mediator experiences a change of state in both cases, in such a way that in the latter case the temperature of the same significantly exceeds that which is necessary for evaporation, and in the former case it enters the condenser at such a low temperature, that it can completely knock down the exhaust steam, that is, to cool it down to about outside temperature.

These conditions are met by the fact that the heat mediator after taking up the Exhaust heat is compressed and thus heated even more, while it is after the Heat release, i.e. before entering the condenser, strong cooling due to expansion learns. As a result, apart from low friction and radiation losses , a complete utilization respectively. Conversion of heat into power achieved.

To carry out this process, for example, the one on the drawing in the Grundrifs The device shown serve.

The exhaust steam emerging from a steam engine α is completely precipitated in a condenser b , while the steam water either enters the open air or can be sucked off by an air pump for any use. The exhaust heat has thus been completely absorbed by the gaseous heat mediator (air) sent through the condenser b. Since the condenser b is built according to the countercurrent principle, the cold air when entering the condenser will first come into contact with the steam that has already been completely precipitated and when it exits it with the steam leaving the steam engine, and thus the air after it has left the condenser b , have assumed a very high degree of heat. This heated air is now sucked in by the compression cylinder c and compressed to a high pressure, whereby it is further heated. The heated air passes from the compression cylinder into the steam generator d in order to transfer its stored heat to the water contained in the same and thus serve to generate steam. Since the heated air zweckmäfsig first comes with the upper layers in contact and exits from the bottom part of the cooler steam generator, then full utilization of the W contained in the air Slee ^T is assured. Finally, the air can still pass through a feedwater preheater e and is then taken up by the expansion cylinder f . Here the high-tension air is now expanding,

Claims (1)

and it is thereby cooled to a very low temperature. This cooled air is fed back into the condenser b , and the same cycle as already described takes place again. The steam flowing out of the steam generator can e.g. be used to operate the steam engine be used, in which case only a small amount of steam to a separate one Steam boiler must be removed. The beneficial effect of the entire system is a very higher, since all the heat required to generate steam is fully utilized again j is and only relatively low Reibungsbezw. Radiation losses occur. The additional power consumption of the compressor compared to the power accumulation in the expansion cylinder / benefits the steam generator d in terms of heat. Of course, the exhaust steam as well as the heat extracted from the latter can be used also be subordinate to something other than steam engine operation. Godfather NT-A ν Proverbs:
Process for generating steam by means of exhaust heat, characterized in that a gaseous heat mediator receives the exhaust heat in a condenser: then further heated as a result of compression, then passed through a steam generator for the purpose of heat dissipation and finally, before it re-enters the condenser, it is strongly cooled as a result of expansion, to ensure complete absorption and utilization of the exhaust heat.
A device for carrying out the method protected under claim ι, characterized in that the cooling line of a condenser (b) connected to the exhaust of a steam cylinder in the circular path of a compression cylinder (c), the heating line of a steam generator optionally equipped with a preheater (e) ( d) and an expansion cylinder (f) is switched on. For this purpose ι sheet of drawings.