DE304747C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The main patent protects a process which allows the waste heat from various heat sources, e.g. B ^ to make red-hot slag, coke and the like usable. The high temperatures not only allow, as it was already known , to generate wet low-pressure steam, ■ ·. Instead, they allow - under the favorable pressure conditions in the coolant - to produce high-pressure steam, possibly superheated high-pressure steam.

For example, if you want high-pressure steam of ίο Atm. generate so is that

¹ ½ steam temperature about 180 ° C; In order to be able to generate this temperature continuously, the circulating coolant must have at least 180 ° in order to be able to give off heat. If you want to overheat the steam, e.g. B. to 250 °, the coolant must run at an even higher temperature than 250 °: On the other hand, there is a risk insofar as the boiling limit of the coolant, which may be 350 °, for example, must not be exceeded. If you want to generate "superheated" steam of 10 atm., Which has 250 °, it must be possible to maintain or regulate the temperature of the coolant emerging from the cooling molds which is above 250 ° but below 350 °, e.g. a temperature of 300 °.

Maintaining this temperature is now set in a central system, which is different Warming up red-hot slag, coke or other waste heat, counteracts certain difficulties, on the one hand the slag does not always flow in the same amount into the slag molds, the furnace corridor plays the well-known role, on the other hand, the coke oven operation is not uninterrupted either, insofar as different cooling hoods are always filled, which are in different types There can be cooling phases, and finally the heat destruction system, as what z. B. a large power center can come into question, never precisely matched to the heat absorption point. Suppose it was an electric one If the power delivery point is central, the current consumption is never in accordance with the heat absorption in the slag pockets, coke hoods, etc. So there has to be a compensation take place, which compensates for the heat shocks of the receiving point by at times greater Heat generation Heat is accumulated during periods of low heat generation additional heat can be taken from this memory. On the other hand, however, are also Regulatory devices are required, which allow that, if the useful processes, despite the storage system, do not absorb all the heat, some of the heat is dissipated in some other way

can be, for example, through destruction processes such as those used in dry coolers come so that you have it in your hand that flows back into the cooling molds Always cool the coolant so far that the desired temperature limit, which is in the The present case was normalized with 300 °, can always be safely adhered to. These Temperature limit can be brought about by adjusting the heat output accordingly influenced by switching heating surfaces on or off or by switching on cooling processes or heat destruction processes, ultimately also by changing the speed of rotation of the heat transfer medium, etc.

So there are two means, the one desired and required in the heat absorber Regulate temperature state, on the one hand a storage system, which excess Stores heat in order to make it useful for the power generation processes, on the other hand, the aforementioned use of a heat dissipation device. The latter could be set up so that in the event of a complete standstill of the useful heat dissipation system all heat is regulated by the annihilation cycle, especially since on the one hand a cooling of the slag container etc. is necessary, on the other hand this cooling Can bring advantages to the slag or coke product itself.

It should also be mentioned that there are already storage systems which, when pressurized water, which is used to cool slag and coke containers, 'the excess Store heat, but these containers are under a vapor-preventing, high Pressure or are used by pressure relief to generate low-pressure steam. Expensive pressure pumps and pressure-resistant storage systems are therefore required, which only allow the use of saturated low-pressure vapors.

In the present invention, the hot cooling medium is capable of high pressure steam, even superheated steam To generate high pressure steam and it is sufficient only one under atmospheric pressure upright, well-insulated large storage container into which the hot cooling liquid flows and from which it - as required - is taken to generate steam or perform other useful processes.

Economic success can be seen on best expressed by comparing the thermal effect achieved. The one mentioned Low-pressure storage system requires around 8 to 10,000 CaI to generate one horse power., while the present system with superheated high pressure steam only about half of thermal units required.

Claims (1)

Patent claim: Method for useful cooling of glowing slag, coke and the like in hollow-walled Cooling molds using the circulating coolant to generate damping according to patent 304025, characterized in that on the heat release side in the case of uneven supply or release of heat, the temperature of the coolant at the desired level, for example by an advantageously below Storage system for the hot coolant at atmospheric pressure Changing the size of the cooling surface of the heat exchange device by switching on of cooling processes, or by changing the speed of the Heat exchanger, is obtained.