DE968350C - Procedure for commissioning a steam generator - Google Patents

Description

ISSUED FEBRUARY 6, 1958

S35760 Ia / 13g

The invention relates to a method for starting up a forced throughfeed working steam generator, in which water from the feed water S container is circulated through the pipe system and back into the container, and onto the steam generator to carry out this procedure.

Although during the heating-up, i. H. in the period between lighting the fire and ίο when the operating temperature of the boiler has been reached, no useful steam can be generated, work equipment must nevertheless be driven through the pipe system during this time, so that the system is protected from harmful thermal stresses. Here the ί Circulation of the water has the advantage that the working fluid during the heating-up period The heat energy given off is not wasted but can be stored.

The known arrangements of this type, however, limit the design freedom during construction of the superheater, because the pipe routing had to be chosen so that it does not only meet the conditions for the flow of the overheated

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Steam during normal operation, but also that of the flow of a steam-water mixture did enough during the heating up. In particular, care had to be taken to keep all water bags in the superheater tubes were completely eliminated before the transition to normal operation and that during the Heating up could not develop an unstable flow of the steam-water mixture.

ίο For this reason it has already been suggested that the line, which the circulated water during heating in the feed water tank returns, branches off from the pipe system between the evaporator and superheater, and that the superheater is shielded from flame radiation. But with many boilers Do not arrange the superheater so favorably that it is not hit by the flame radiation and consequently in the absence of cooling as a result

thermal overload would suffer damage.

According to the invention it is proposed to avoid the disadvantages described that the circulated water between evaporator and

The superheater for return to the feed water tank it is taken from the pipe system that the superheater is filled with water, which evaporated during heating, and that this steam is removed from the superheater. By

this proposal you have a much greater freedom in construction, especially the Pipe arrangement of the superheater, since not necessarily water or a Steam-water mixture driven through him

needs to become. The water content of the superheater is normally measured so that the Transition to normal operation this water has completely evaporated.

A water separator is expediently placed between the evaporator and the branch point of the return line arranged.

It is advisable to have a first valve in the pipe system between the separator and superheater, in the line leading back from this pipe system to the feed water tank has a second valve and in one of the pipe systems at the outlet end of the superheater, the extraction " A third valve should be provided for the line used for the steam generated during the heating process.

With the help of the first two valves it is possible to to pass the work equipment through the superheater during operation and during the The heating can be traced back directly to the feed water tank without causing the superheater flows through. The third valve allows the superheater that arises during heating up Blow off steam directly.

The valves can be adjustable by hand or work fully or semi-automatically.

In particular, the two first valves can be used as overflow valves that maintain the pressure at the valve inlet be trained. The first overflow valve advantageously has an adjusting device, by means of which the setpoint of the pressure can be set.

The first valve can also be controlled by a control element as a function of the state of the in the working medium entering the separator is influenced. The control of the first valve can also be dependent on the condition of the working medium emerging from the separator or from the height of the water level in the separator. In the same way can a control member the second valve depending on the state of the entering the separator Working medium or the state of the working medium emerging from the separator or from the height of the water level in the separator.

An exemplary embodiment of the subject matter of the invention is shown in Fig. 1 of the drawing. Figs. 2 to 7 show control options for the first and second valve.

In normal operation, the working fluid is removed from the feedwater tank 1 by means of the Pump 2 in the preheater and evaporator part 3 or 3 'of the pipe system. The out The wet steam emerging from the evaporator reaches the water separator 4, from which saturated steam flows through the valve 5 into the superheater 6 and this through after overheating the outlet line 7 leaves.

During the heating-up, the valve 5 is closed and the working medium is switched off after leaving of the water separator 4 via the second valve 8 and through the bypass line 9 directly returned to the feed water tank 1. During this period it heats up the circulating water. After a while, an ieo forms at the outlet end of the evaporator Steam-water mixture, the water content of which decreases more and more, and from a certain point in time on is the water separator 4, which was initially completely flooded, the Separate water from steam. The separated water can from the separator 4 through the Line 10 are discharged. As soon as saturated steam leaves the separator, the can already Way to be released into the superheater. This means that you do not need to reach the no normal steam humidity at the evaporator outlet to be maintained.

In the meantime, this is done before the start of heating or even partially during this time Superheater 6 introduced water evaporated completely. The valve 11 in a branching off from the outlet line 7 at the end of the superheater 6 Line 12, which was open during heating and through which the during Steam generated in the superheater at this time can be closed so that the boiler switching required for normal operation has been achieved.

In the steam generator according to FIG. 1, the valves 5 and 8 are pressure-regulated overflow valves formed, which by means of a pressure

controller 13 the pressure at the valve inlet on -dem Maintain the setpoint value. The setting of the overflow valve S is made by means of an adjusting device 14 made. With their help, the valve 5 can either during the heating-up blocked in the closed position or only to a higher setpoint than that Valve 8 can be adjusted. In this way, the working fluid cycle is in accordance with the designation secured during heating up. As soon as the separator 4 is able to use all the water separating the steam-water mixture entering it from the steam can do that Valve 5 can be opened completely or partially by means of the adjustment device 14, so that the entire Saturated steam leaving the separator or "part of it" flows into the superheater 6 opening the valve 5 is desirable, for example, when the turbine is first preheated or with a low load or if, with the valve 11 open, there are still liquid residues through the line 12 from the superheater should be driven.

The valve 5 can also be controlled automatically. In FIG. 2 there is a control element 15 shown, which the valve 5 depending on the state of entering the separator Work equipment influenced. Fig. 3 shows a control member 15 ', which the valve 8 as a function actuated by the state of the working medium entering the separator. If z. B. both Valves are also designed here as overflow valves and the valve 8 during heating has a lower setpoint and a higher setpoint during operation than that Valve S, then 'also' achieved the effect that the working fluid during the heating up circulated in the proposed manner and during operation by the superheater is directed.

Fig. 4 shows a control member 16, which the valve 5 depending on the state of the working medium emerging from the separator is actuated. In the same way it can Control member 16 ', which is shown in FIG. 5, can be influenced in order to control the valve 8. Even here the valve 5 can be completely closed during the heating-up or the valve 8 during operation be kept closed. With automatic valves it is possible to use the To keep the pressure setpoint of the valve that is to clear the path for the working fluid lower than the setpoint of the other valve.

Finally, in Fig. 6, a control member 17 is shown, which the valve 5 as a function operated by the height of the water level in the separator, while Fig. 7 is a control member 17 'shows which influences the valve 8 as a function of the same controlled variable.

Which control arrangement is most advantageously used depends on the respective Operating conditions, in particular, are often combinations of the arrangements described to recommend. However, it is possible that in certain cases to carry out the invention Procedure, the use of other control devices is appropriate.

Claims (1)

Patent claims: 1. Procedure for commissioning a steam generator that works in forced flow, with water from the feed water tank through the pipe system during heating and circulated back into the container, characterized in that the water between the evaporator and superheater for return to the feed water tank is taken from the pipe system that the superheater is filled with water, which evaporated during heating, and that this steam is taken from the superheater will. 2. Steam generator for performing the method according to claim 1, characterized by one arranged between the evaporator and the branch point of the return line Water separator. 3. Steam generator according to claim 2, characterized in that in the pipe system between the separator and superheater a first valve, in which this pipe system to the Feed water tank returning line a second valve and in one of the pipe system branching off at the outlet end of the superheater, which is used to remove the steam generated during heating Line a third valve is provided. 4. Steam generator according to claim 3, characterized in that the first two valves are designed as overflow valves that hold the pressure at the valve inlet. 5. Steam generator according to claim 4, characterized in that the first overflow valve has an adjusting device by means of which the setpoint value of the pressure can be adjusted can. 6. Steam generator according to claim 3, characterized by a control member which the first valve as a function of the state of the working medium entering the separator influenced. 7. Steam generator according to claim 3, characterized by a control member which the second valve depending on the state of the entering the separator Work equipment influenced. 8. Steam generator according to claim 3, characterized by a control member which the first valve as a function of the state of the working medium emerging from the separator influenced. 9 / steam generator according to claim 3, characterized by a control member which the second valve depending on the state of the exiting from the separator Work equipment influenced. ok Steam generator according to Claim 3, characterized by a control element which influences the first valve as a function of the height of the water level in the separator. 11. Steam generator according to claim 3, characterized by a control element which influences the second valve as a function of the height of the water level in the separator. Considered publications: Belgian patent specification No. 503 068. 1 sheet of drawings ) 509 579/49 11.55 (709 874/4 1.58)