DE375371C - Process and device for preheating boiler feed water - Google Patents

Description

Process and device for preheating boiler feed water. The invention relates to a process and a device for preheating boiler feed water, in which the feed water through a vacuum stage of a steam engine, especially turbine, entnoirirnelien bleed steam is heated. The steam for heating of the feed water from a vacuum stage has the advantage (iaß the Bleed steam has already done as much work as possible in the turbine. The out However, depending on the load on the turbine, steam extracted from a vacuum stage has a different degree of heat, in such a way that 1-, ei decreasing load the degree of warmth also decreases. As a result, as the load decreases, the feed water becomes Heated too little if the degree of heat is the nominal at full load of the turbine Tap steam is just enough to really heat the feed water.

According to the invention, this disadvantage is avoided in that the tap for the steam, which is used to preheat the feedwater, from a vacuum stage takes place, which ensures correct feed water preheating, even when the load is low has sufficient steam heat. This tap (lainpf becomes 1-, ei lower load taken from the turbine in such a large amount of the stage, not included (not for the Feed water pre-heating consumed part of a storage tank is filled, so claß Hei Volll: Turbine the steam for the feed water preheating instead is taken from the turbine stage from your storage.

The arrangement not only has the advantage that one can withstand any load the feed water with better utilization of the steam heat on the desired heat wheel can preheat, but also makes it possible to keep the boiler load more evenly, as (read would be possible without arranging the memory. Because with lower Load of the vacuum stage of the tur-1 ine removed a lot of steam and at higher load the extraction of steam from the turl; ine completely interrupted or substantially restricted the steam development in the boiler will not fluctuate as it should Case would be.

As when the steam is withdrawn from your storage tank to preheat the feed water as a result of the gradually falling pressure in the storage tank, the degree of heat will also decrease, so it is necessary to always achieve sufficient charge water preheating, the steam extracted from such a high vacuum level when the turbine is under load to deduce that the degree of warmth of the steam collected in the memory is also falling hot The storage pressure is still sufficient for preheating the feed water. However, dalin would the degree of heat of the bleed steam when it is fed directly to the feedwater preheater, therefore, with a low load on the turbine, per se larger than necessary, however can be compensated for by a suitable choice of the amount of steam or the heating surface will.

One can also preheat (the feed water in the same way that the amount of feed water is regulated accordingly in such a way, (measure under immediate heating of the feed water -: <ers through the bleed steam more feed water through the preheater is sent as if the steam (a more or less emptied memory is removed. This rule becomes applicable when multiple turbines work together be. The regulation of the feed water quantity can be fully cineni either from your Steam heat level or from (learn in the pressure l e-influenced controller in the storage tank be made dependent.

Maintaining a constant level of warmth can also be carried out in such a way that at higher loads, the bleed steam tube is reduced and finite the amount of steam withdrawn from -: a gradually emptying memory, their degree of warmth for the correct feed water preheating too low would be mixed before the feed water preheater, so that the mixed steam the correct Degree of warmth. The bleed steam would have to be adjusted to the respective storage pressure can be throttled down, if necessary ejector effect can also be used. With this type of control, the bleed steam withdrawn when the load is low is needed To have only the degree of warmth that is necessary for heating the feed water is, since the degree of heat of the bleed steam rises at higher loads and thus compensates for the decreasing heat level of the steam from the storage tank. Instead of the storage steam To mix with the tap, you can also mix the feed water through one after the other send two preheaters, one of which through the storage steam and the other is heated by the extraction steam.

In all of the cases mentioned, when steam is withdrawn from the storage tank the supply line to the reservoir and, when the reservoir is filled, the drainage line completed from memory. The feed water can still go through after it has been preheated an economiser.

The subject of the invention is shown on the drawing in an exemplary manner Demonstrates execution.

Here, a denotes a main turbine, from which steam is withdrawn in a suitable vacuum chamber for heat dissipation in a boiler feedwater preheater b. The feed lines e and f for a steam accumulator J and the prime mover da of the auxiliary condensation machines i and h are branched off from the tap line c. The device is designed so that when the load is low, the bleed valve l is opened and part of the bleed steam is fed to the memory g for storage and the remaining part to your feedwater preheater b, possibly after previous work in the auxiliary turbine 1a. With a higher load on the main turbine a, the steam extraction is reduced or w-w by adjusting the throttle element L. Completely interrupted, with the missing amount of steam for operating the feedwater preheater b and the auxiliary turbine h possibly connected upstream being supplemented by a corresponding storage steam extraction. If the amount of steam supplied to the auxiliary turbine la from the tapping point or the store is insufficient to generate the power required to operate the auxiliary condensing machines, this power is wholly or partially applied by an electric drive machine m. In order to ensure that the feed water is constantly heated evenly by the bleed steam, the feed water supply to the preheater is automatically adjusted by a regulator n which is influenced by the pressure prevailing in the storage tank.

Claims (1)

PATENT CLAIMS: i. A method for preheating boiler feed water, in which the feed water is heated by the bleed steam taken from a vacuum stage of a turbine, characterized in that this bleed steam is withdrawn at such a high vacuum level and in such a large amount that, in addition to sufficient preheating of the turbine, this bleed steam is withdrawn from such a high vacuum level With the feed water, a steam accumulator is filled with it, from which the amount of steam required for preheating the feed water is withdrawn in the event of a higher load, with the tap line being completely or partially shut off. a. Method according to Claim i, characterized in that, at higher loads, the amount of bleed steam is reduced and mixed with the steam coming from the store, whereupon the mixed steam is passed into the feed water preheater. 3. The method according to claim i, characterized in that at higher load on the turbine with simultaneous interruption of the tapping and extraction of steam from the memory, the amount of feed water is reduced by a pressure or heat regulator. q .. feed water preheater according to claim i, characterized in that an auxiliary turbine (1a) for driving auxiliary condensing machines ( i, h) is switched on in the tapping line (c), the output of which is switched off or throttling (l) of the tapping line by another, z. B. electric drive machine (@rc.), Is taken over or added. 5. The method according to claim i and d., Characterized in that when the tap line is shut off or throttled, the storage discharge line is connected to the tap line behind the shut-off or throttle point of the tap line, but before the auxiliary turbine.