DE432414C - Preheater, in which the water is gradually preheated by exhaust and bleed steam, especially for steam boiler feed water - Google Patents

Description

Wherein a gradual preheating of the water through drain and bled steam preheater is effected, in particular for boiler feed water. It is known to preheat water, in particular for feeding steam boilers, by tapping an engine in stages by means of steam. The condensation of the steam or the preheating of the water can take place both in apparatuses with heat exchange surfaces and by direct introduction of steam into (the water. In the first case, expensive apparatus is required, in the second case the disadvantage must be taken that the entire amount of water from the vacuum pressure level of the condenser has to be pumped into the higher tensioned level of the next condenser, which requires considerable power, especially with large pressure differences and large amounts of water.

It is also known to use liquids through surface preheaters were warmed up, further warming up steam in cooking vessels by blowing in steam directly and to cook. In such systems, the liquid only needs to be at atmospheric pressure to be pumped, as the heating of the entire contents only after it has been let into the container takes place and the liquid is not in other places under higher Pressure is needed. The present invention relates to systems in which the hot water is used under overpressure and with them therefore the promotion must always take place at the corresponding consumption pressure, as is the case in particular with preheater systems for steam boiler feed water. According to the invention, condensation should occur in those low pressure stages taking place with the switching on of heating surfaces, while in the stages of higher pressure an immediate condensation of the steam in the water should take place. The one through this The advantage achieved is that one is in the lower, especially the vacuum levels By using the heating surfaces, there is no need for a pump for the water to be preheated can, while in the higher stages by direct 1-ares blowing in the least Loss of heat gradient takes place and the condensation facilities for the steam, z. B. the exit cross-sections of the nozzles, due to the lower steam volume can get smaller '.

In the vacuum condensation stages, the use of mixing preheating would therefore represent a superfluous waste of power, because the cooling water must first be brought from atmospheric pressure to vacuum pressure and then pumped back from vacuum pressure to atmospheric pressure, while in the higher preheating stages the pressure under which the water is located anyway Water temperature, regardless of whether - heating surface or mixed preheating is used here. In these stages, pumping is therefore an unavoidable necessity and cannot be described as an unnecessary loss.

The drawing shows an arrangement according to the invention.

i and 2 are prime movers that work on condensation or low back pressure and are each provided with a tap. The lowest pressure stage gives its Abdarnpf through the line 3 to the surface condenser 4, which receives the cooling water from the cooling water pump 5. The cooling water flows into the further surface preheater 6, which receives from the engine i through the line 7 steam of somewhat higher than the capacitor voltage, for example 0.5 atin. Section. The condenser 6 is supplied with the cooling water preheated in the condenser 4 through the line 8. The water flows from the preheater 6 into the tank 9, designed as a mixed condenser, which is supplied with steam at a higher voltage again at the tapping point of the engine: 2 through the line io, and the steam is condensed in the water of the tank 9 through the heating nozzle ii.

From the container 9 , the water passes through the pump 12 into the container 13, which is supplied with steam from the tapping stage of the engine i, which is condensed by the heating nozzle 14.

The pressure sequence in the individual stages is roughly graded as follows: In condenser 4, the steam should be condensed to as low a pressure as possible, about 0.1 atm. The condensate can be used to feed the boiler. In the preheater 6 , due to the higher cooling water temperature (the cooling water flows out of the condenser 4 at about 30 "), only a vacuum of 1 /, atm. achieved. The cooling water is further heated from 3o to about 65 '. In the container 9 , the water heated to about 65 'is further heated to about 100' corresponding to one atmosphere by direct addition of steam. Through the line 15, consumers can be supplied with hot water that require 100 degrees of water.

The water used to feed the boiler is continued in the container 14 heated, for example by steam of 2 atm. on i2o '. From the container 14 is the water for the boiler feed is withdrawn, which can be used in further stages as required higher temperatures can be brought, whereby the generation heat for steam generation is further reduced in the boiler.

The use of heating surfaces in the low pressure area is particularly beneficial then advantages over mixing preheating if there are large ones to be heated Wasserniengen acts. The subject matter of the invention is therefore also of value for systems, in which hot water is stored and used immediately in large quantities.

Claims (1)

PATENT ANSPRUCII: preheater, wherein a gradual preheating of the water through drain and bled steam is effected, in particular for boiler feed water, characterized in that in the stages of lower pressure (4,6) a condensation with inclusion of heating surfaces, higher in the step pressure (9, 13) an immediate condensation of the steam in the water takes place.