DE473084C - Multi-stage power plant with pre-heating of the feed water by steam and reheating - Google Patents

Description

fMulti-stage power plant with pre-heating of the feed water using steam and reheating In multi-stage power plants that use steam for preheating purposes is taken and that work with reheating, so far resulted Difficulty when a significant number of connections and piping are required which in turn caused heat and pressure losses. Also require separate Preheating and superheating devices special control devices that the structure make the machine intricate.

The present invention avoids these difficulties by that in a single container to which the steam to be treated is supplied, several separate, in particular tubular heat exchange devices are arranged, which are partly traversed by heating steam and partly by feed water and which be washed around by the supplied steam, so that part of this steam is its heat to which one exchange device delivers, while the other part of the device Absorbs heat to overheat.

The figures show schematically two exemplary embodiments of the invention. They differ from one another in that, according to Fig. I, the boiler steam is directly is used for overheating purposes, while according to Fig. z the superheater by a special System is heated. .

In the figures, a Benson steam generator is assumed as an example, but the device can naturally be applied to any steam power plant.

Fig. I: The boiler feed water is pressurized in a pipe system r and the system is heated by a burner z. A line 3 leads to the consumers. Line 3 splits at point 4. One branch leads over an upstream machine 5, which also serves as a throttle machine, to a main machine 6, while the other branch goes to superheater coil 7. The steam leaves the Turbine 6 through the nozzle 8 and enters a container 9. In the container 9 is in addition to the heating coil 7, another pipe coil 1-a is arranged, which from the boiler feed water is traversed by a pump ii- from the container 13 through the snake iz is pressed and from which it is conveyed through the line 14 to the pipe system i will. A cylinder 15 is arranged between the two snakes, which is through a Layer 16 is isolated. The container works as follows: The one from the nozzle8 escaping machine steam divides within of the container, namely a part washes around the heating coil 7 through which the boiler steam flows, while another part is in contact with the snake 12 through which the cold feed water flows comes. As a result, this vapor is condensed; it gives its heat to the boiler feed water while the condensate flows through a line 46 to the container 13. Of the Steam flowing around the heating coil 7 is overheated and passes through a pipe 17 to the machine 18, which he leaves through the line 1g. He is in the condenser 2o precipitated and the condensate conveyed through a line 21 to the container 13. In the queue 7, as already mentioned, the boiler steam gives its heat to the exhaust steam of the machine 6 and condenses as a result. Through the line -io he becomes the The pump is fed back in and transported back to the boiler by it. Possibly the condensate can also be pressed from the coil 7 directly into the line T4 are, as indicated by the dashed line 22. The feed water cycle is therefore as follows: From the container 13 via the pump ix, through the line 23 to the snake 12, from there through the line 14 to the pipe system i, through the line 3 to the queue 7 and back through the line io to the pipe system i.

. In Fig.2, the same symbols have been chosen for the same parts. A pipe system i heated by a burner: 2 is supplied by a feed pump i i via a line 23 through the preheater coil 12 and from this through a Line 14 is supplied with the feed water from a container 13. The steam is in a Upstream machine 5 throttled to the operating pressure, performs in a main machine 6 work and enters the container g through the nozzle 8, is overheated therein and flows through a line 17 of a second machine or a lower stage to. The exhaust steam passes through a line ig in the condenser 2o, from which the condensate flows through a line 21 to the container 13. In contrast to Fig. i now the coil 7 is not heated directly by the boiler steam, but by a separate system consisting of the pipes 2q., the burner 25 of a circulation pump 26 and the lines 27 and 28 consists. The use of a separately heated Systems can bring various advantages depending on the heat transfer medium used, for example that the pressure in the system as a result of using a higher can keep boiling liquid low and, as a result, saves on construction costs.

The new facility has the advantage that a special regulation the preheater circuit is not required; depending on the stipulation by the snake 12 flowing feed water and its temperature is determined from the flow through the nozzle 8 inflowing amount of steam always deposited so much steam that the contained Heat tightness the feed water up to a condition corresponding to the feed water Dimensions heated.

Claims (1)

PATENT APPLICATION3: Multi-stage power plant with preheating of the feed water by steam and reheating, characterized in that in a single Container (g) to which the steam to be treated is fed, several separate, in particular tubular heat exchange devices (7, 12) are arranged, some of which (7) of heating steam, partly (12) of feed water flowed through it and that of the supplied Steam (8) are washed around, so that part of this steam its heat to the one Exchange device (7) delivers while the other part of the other device (12) Absorbs heat to overheat.