DE1030356B - Turbine system with reheating - Google Patents

Description

Turbine system with reheating steam turbines are used for improvement the heat economy is increasingly carried out with reheating. In machines of this type, load surges or sudden relief can now occur difficulties may arise due to the storage capacity of the reheater result. To remedy these difficulties is known behind the reheater to switch on a combined control and shut-off valve, which in the event of sudden Relief of the machine the steam trapped in the intermediate: superheater Bypassing the turbine to the condenser and so an impermissible run-up the machine makes impossible. The control of the relief valve can be according to an older Proposal made by a piston, which depends on the load on the machine proportional secondary oil pressure of the control device is counter-loaded.

The invention is based on the object of such devices to develop and improve. According to the invention this is achieved by that the interconnected between the reheater and the condenser combined Shut-off and control valve on the one hand from the reheater pressure, on the other hand pressure ratio regulator dependent on the secondary oil pressure of the turbine speed regulator is controlled. The pressure ratio regulator is here with an adjusting device which enables the pressure behind the reheater for the various Operating conditions, namely normal operation and start-up operation, can be set in a controllable manner.

According to the further embodiment of the invention, the control of the Control and shut-off valve made dependent on another limit value controller by the regulation of the reheater pressure through steam discharge to the condenser depending on the operating parameters of the condenser (e.g. the vacuum, which the The amount of steam supplied to the condenser, the steam pressure in front of the condenser) and furthermore the supply of injection water is placed in the steam to be blown off.

According to the invention, the one influenced by the ratio controller is also used Control pressure, if this occurs when the regulation of the reheater pressure is ineffective exceeds a certain value by the limit value controller, used to inevitably A reheater safety valve directly or indirectly via a follower piston Bringing appeal.

The arrangement according to the invention has the advantage that it not only allows steam to be blown off temporarily into the condenser, but rather that it allows certain adjustable values in the reheater network Operating pressures both during normal operation and when starting up the machine set bring about. The arrangement according to the invention makes it possible in the most perfect Adjust the pressure in the reheater network for all operational processes, To adapt load surges and the like to the operating requirements in the necessary manner.

The circuit according to the invention is also distinguished by the advantage from the fact that only then is it possible to blow off steam into the condenser with certainty is when the condenser is capable of absorbing this vapor and therefore none Disturbance in the vacuum maintenance occurs.

The invention is to be explained using an exemplary embodiment.

Fig. 1 of the drawing is initially a schematic of the overall scheme Turbine system again; Fig. 2 shows in more detail the implementation of the device for regulating the reheater pressure.

In Fig. 1, 1 denotes the steam boiler. 2 means the turbine, which consists of the high pressure part 2 rz undl the low pressure part 2 b. The steam is supplied from the boiler t via the quick-acting and control valves 3 and 4. Between the turbine parts 2a and 2b , the reheater 5 is switched on. 6 and 7 are valves upstream of the low-pressure part. 8 means the combined shut-off and regulating valve provided according to the invention, which makes it possible to divert steam from the reheater line 9 into the condenser 10. The main purpose of the condenser 10, however, is to condense the steam flowing out of the low-pressure part 2 b of the turbine. A condensate pump is denoted by 11, through which the condensate is fed back to the boiler 1 via the preheater 12. 13 means yet another live steam line, through which throttled live steam can be discharged via the throttle valve 14 before the start-up of the machine via the reheater 5 and the control valve 8 into the condenser 10. As @schori was indicated above, the combined shut-off and control valve 8 makes it possible to discharge steam from the line 9 directly into the condenser 10, whereby the steam in the line 9 is regulated to a certain pressure and, above all, enables: -will, in the event of sudden unloading of the machine set, discharge the steam located in the reheater into the condenser, bypassing the turbine part 2b. Likewise, the combined control and shut-off valve 8 can with appropriate. Changing the control setting can be used to reduce the pressure when starting up the machine unit downstream of the reheater, which in this case is fed live steam via line 13 and the throttle valve.

Fig. 2 of the drawing. gives in more detail the training of the in the scheme Reheater line 9 switched on combined shut-off and control valve 8 again.

10 in the drawing again means the condenser, to which steam can be fed from the reheater line for precipitation via a throttle orifice: The valve 8 has two valve plates 81, 82 which cooperate with corresponding seat surfaces of a common valve seat in such a way that steam can pass through Valve opening is only possible when both valve plates are lifted from the valve seat. The lower valve disk 82 is used for simple switching, ie for interrupting the steam flow. The valve disk, which is under the action of a spring 83, is controlled via the linkage 84 by a switching piston 85, to which a working medium in the form of oil is fed via the supply lines 86a via the control piston 87, depending on the desired control. The upper valve disk 81 is used for regulation, ie the passage of steam is more or less enabled or even prevented depending on the control of the disk 81. The valve disk 81 is actuated by the control piston 88 to which the working fluid, e.g. B. oil is fed via line 86 b. 90 means a linkage for the return, through which the control piston is returned after the control piston has occurred in order to avoid oversteering. The pressure oil supply to the control pistons 87 and 89 is now controlled by a pressure ratio regulator 91. supervised. This pressure ratio regulator 91, which is designed, for example, as a jet pipe regulator, is influenced, on the one hand, as a function of the secondary oil pressure of the turbine speed regulator and, on the other hand, as a function of the pressure in the reheater line 9. The secondary oil pressure of the turbine speed controller is fed to a diaphragm body 93 via line 92, while the reheater pressure acts on a diaphragm body 94 via line 92 a. The diaphragm forces are transmitted in opposite directions to the jet pipe 95, through which the follower piston 96 of the regulator pressurized fluid, e.g. B. oil is supplied. 97 means an adjusting device for the regulator, which makes it possible to change the regulation of the reheater pressure within wide limits. Depending on the ratio of the secondary oil pressure of the turbine speed controller and the vapor pressure downstream of the reheater, the fluid pressure fed to the control pistons 87 and 89 via the line 98 is now changed via the follower piston 96. The hydraulic fluid supplied to the control piston 87 and 89 by the follower piston 96 of the ratio regulator does not, however, flow directly to the feed lines 98, but rather via the follower piston 102 of a safety and limit value regulating element 101. It is used to bring the mode of operation of the switching and control valve depending on the operating parameters of the capacitor. For this purpose, the safety device 101 is made dependent on the one hand on the vacuum and on the other hand on the vapor pressure in the line immediately upstream of the condenser and also on the pressure of the injection water which is introduced into the condenser nozzle that receives the steam from the reheater network. For this purpose, the safety device, which is designed in the manner of a jet regulator, has the diaphragm body 103, on which the pressure of the condenser acts, furthermore a diaphragm body 104 influenced by the pressure of the line between the condenser 10 and the combined control valve 8, and a further diaphragm body 105 on which the pressure is applied the injection liquid for the reheater steam connection 107 is located. In this case, condensate is used as the injection liquid, which is taken from the condensate line downstream of the pump 108 and fed to the injection nozzles via the valve 109. The device is designed in such a way that the valve 109 is reversed via the working piston 110. The liquid propellant is fed to the working piston 110 via the control piston 111, which is also connected to the control line 96a behind the follower piston 96 of the ratio regulator 91. As a result of this circuit, as soon as the control pressure behind the follower piston 96 exceeds a certain pressure, before the shut-off valve is reversed or before the control valve takes effect, condensate is injected into the inlet connection 107 of the reheater steam, which is the prerequisite for receiving the Reheating steam is created by the condenser. The previously mentioned membranes 103, 104, 105 now act mechanically on a jet pipe of the safety device 101, in the sense that only then the supply of the control fluid from the follower piston 96 of the regulator 91 into the Feed line 98 to the control piston of the shut-off and regulating valve 8 is released when the valve 109 for the injection of condensate into the condenser nozzle 107 is open and there is sufficient injection pressure, when furthermore the condenser pressure has not exceeded a certain upper limit value and finally also the Vapor pressure in the line between the condenser nozzle 107 and the shut-off and control valve 8, which accumulates on the diaphragm 100, does not exceed a certain value.

The mode of operation of the device described should be based on the above be easily understandable. The pressure ratio regulator controls the two Valve piston 85 and 88 in such a way that initially, as soon as a certain disturbance the pressure ratio, e.g. B. by discharge occurred, through the piston 85 at a relatively low pressure, for example from 1 to 2 at, the Valve disc 82 is lifted from its seat. However, steam is not yet flowing through possible. Only with a further deflection of the ratio regulator 91, as soon as the pressure the control fluid has risen to about 1.5 to 3 at, the working cylinder comes 88 of the valve disk 81 causing the regulation to take effect. By opening the steam passage as a result of the movement of the valve disk 81 now flows; Steam from line 9 over the nozzle 107 into the condenser, whereby the vapor pressure on the through the Ratio controller 91 monitored value is lowered.

The entry of the control fluid is now through the safety organ 101 in the line 98 leading to the control piston 87 and 89, so. will initially the operation of the control valve is prevented, and the shut-off valve is closed, the two valve disks 81, 82 resting against their seats and one double Bring about completion within the combined shut-off and control valve 8. if now the control pressure behind the follower piston 96 as a result of the deflection of the ratio regulator 91 continues to rise, e.g. B. to 4 at, another control piston 114, which is through a spring is loaded, reversed, whereby the pressure medium supply to a Safety pulse generator 115 is switched on, which is used via a line 112 to give a steam pulse to the reheater safety valve that this comes to response and a blow-off of the steam from the reheater line 9 into the atmosphere. Finally, 113 means one more arbitrary controllable electromagnetic slide, which is used to monitor operational safety to reverse the control cylinder 110 for the pulse generator of the safety valve.

Claims (10)

PATENT CLAIMS: 1. Turbine system with reheating, in which a combined control and shut-off valve is switched on behind the reheater, which diverts the steam trapped in the reheater by bypassing the low-pressure part of the turbine to the condenser, characterized in that the shut-off and control valve (8) is controlled by a pressure ratio regulator which is dependent on the one hand on the reheater pressure and on the other hand on the secondary oil pressure of the turbine speed regulator. 2. Turbine system according to claim 1, characterized in that the Control of the regulating and shut-off valve by a safety device Limit controller made dependent. act on the operating parameters of the capacitor. 3. Turbine system according to claim 1, characterized in that as a safety organ Acting limit pressure regulator depending on the vacuum in the condenser, that on an orifice Vapor pressure controlled upstream of the condenser and the pressure of an injection water supply line depends on which when steam is blown into the steam inlet nozzle of the Condenser water is injected. 4. Turbine system according to claim 1, characterized characterized in that the summarized in a known manner in a common housing Control and shut-off valve has separate power drives, the control piston of which is in Parallel connection are connected to a control line, the pressure of which is controlled by the Follower piston depends on the secondary oil pressure of the turbine speed regulator and on Steam pressure of the reheater working ratio regulator is regulated. 5. Turbine system according to claim 4, characterized in that in the control line between the pressure ratio regulator and the control piston of the control and shut-off valve the control piston of the limit regulator acting as a safety device is switched on is. 6. Turbine system according to claim 1, characterized in that a power drive to switch on a valve for the injection water, which when blown off in the steam inlet nozzle of the condenser is routed directly to the control line of the follower piston of the pressure ratio regulator is connected in such a way that already Open the spray water valve before opening the shut-off and control valve will. 7. Turbine system according to claim 1, characterized in that immediately to the line carrying the control pressure behind the follower piston of the ratio regulator a pressure-dependent controlled spool is connected through which when exceeded of a certain control pressure behind the slave piston of the ratio regulator A steam impulse generator that enables the safety valve to be triggered, is operated. B. Turbine system according to claim 1, 'characterized in that as Safety device for monitoring the shut-off and control valve, depending on the Operating variables of the capacitor, a limit value controller designed as a jet regulator is used. 9. turbine system according to claim 1, characterized in that the Power drive of the control valve in itself. known way with a return is provided. 10. Device according to claim 1, characterized by the application of the pressure ratio regulator with adjustable sensitivity to regulate the Steam pressure behind the reheater when starting up with live steam supply from Boiler to reheater. Considered publications: "Escher Wyß-Mitteilungen", 1956, issue 2, pp. 32 to 34.