FR2730761A1 - Pressure regulator for steam in combined heat cycle circuit - Google Patents

Abstract

The regulator for maintaining the pressure of the steam in the recovery heater (1) of a combined heat cycle plant, having a gas turbine (3) and a steam turbine (4). The recovery heater has an inlet (8) connected to the output (7) for the gas flow from the gas turbine and an outlet (9). A flap valve (11) is mounted in the exhaust pipe, to close off the outlet. The vents (12) are fitted between the outlet from the gas turbine and the inlet to the reheater, allowing communication between the outlet of the gas turbine and the atmosphere.

Description

DEVICE FOR HOLDING THE PRESSURE OF THE STEAM IN
A RECOVERY BOILER
The invention relates to a device for maintaining the pressure of steam in a recovery boiler.

 In particular, the invention relates to a device for maintaining the pressure of steam in a recovery boiler of a combined cycle thermal power station when the gas turbine is turning.

 There are known combined cycle thermal power stations comprising a gas turbine, followed by a steam turbine, intended to drive a current generator or equivalent. The principle is as follows: the exhaust gases from the gas turbine pass through a recovery boiler which produces steam destined to drive a steam turbine. The time for heating and pressurizing the steam turbine is very long.

 When it is necessary to stop or restart the gas turbine, it is necessary to follow a procedure for turning the gas turbine. This procedure consists in rotating the shaft of the gas turbine, by auxiliary means, at a turning speed in order to avoid irregular cooling or heating of the shaft.

For example, if the shaft, which was strongly heated during use, was stopped very quickly after the gas turbine had been put out of service, a temperature gradient would be established and this would result in deformations of the latter. On the other hand, if the shaft were accelerated very quickly to the service rotation speed, harmful vibrations would occur.

 Thus, thermal power stations generally include tacking devices preventing irregular heating or cooling of the shaft.

 In addition, continuous turning is necessary for thermal power plants in which the turbine blades are locked in position by the centrifugal force of rotation. In these cases, we understand that a total shutdown of the turbine is very penalizing.

 Finally, turning is a procedure which is also used when injecting something other than fuel into the gas turbine, for example a cleaning product for the turbine blades.

 As the gas turbine is not in operation during the turning procedure, one of the drawbacks of this turning procedure is that it generates a flow of cold gas.

Such a cold air stream cools the vapor, by heat exchange in the recovery boiler. This phenomenon is not acceptable because it quickly "deflates" the boiler. The time required to re-inflate the boiler is significant and therefore affects the productivity of the affected combined cycle accordingly.

 The object of the present invention is to provide a device which makes it possible to prevent the flow of cold air, generated by the turning procedures of the gas turbine, from cooling the vapor of the steam turbine. In other words, the object of the invention is to suppress deflation of the boiler due to the flow of cold air.

 To this end, the invention relates to a device for maintaining the pressure of the steam in a recovery boiler of a combined cycle power station having a gas turbine and a steam turbine, said recovery boiler having an inlet connected to the gas flow outlet from the gas turbine, and an exhaust outlet.

According to the invention in the procedure for turning the gas turbine, the device comprises at least one flap mounted in the exhaust outlet of the recovery boiler, and closing off said exhaust outlet, and deflection means mounted between the outlet of the gas turbine and the inlet of the recovery boiler, putting the outlet of the gas turbine into communication with the atmosphere.

 Advantageously, the flap, disposed in the exhaust outlet of the recovery boiler, is movable between a closed position in which it obstructs the exhaust outlet and an open position in which the exhaust outlet is open, and the means for deflection are movable between a deflection position in which the outlet of the gas turbine is in communication with the atmosphere and a sealed position in which the outlet of the gas turbine is tightly connected to the inlet of the boiler recovery.

 During turning procedures, the flap is in the closed position, and the flow of cold gas resulting from the rotation of the rotor of the gas turbine is deflected to the atmosphere by the deflection means. Thus the recovery boiler is spared by the flow of cold gas.

 In service, the shutter is open, and the flow of hot gas leaving the gas turbine passes through the recovery boiler and is discharged through the exhaust outlet.

 Other advantages and characteristics of the present invention will result from the description which follows with reference to the single appended figure representing a schematic view of a device according to the invention.

 Thermal power plants 2 with combined cycle are known, comprising a gas turbine 3 after which a steam turbine 4 is mounted, intended to drive a generator 5 or equivalent. In known manner, the gas turbine 3 comprises an outlet 7 for gas flow in connection with the inlet 8 for a recovery boiler 1. This recovery boiler includes heat exchangers 6 which, in contact with the flow of combustion gases, allow heating and vaporization of water for pressurizing the supply circuits of the steam turbine 4. The combustion gases are discharged into the atmosphere through the exhaust outlet 9 of the boiler 1 located downstream of the exchangers 6.

 The gas turbine and the steam turbine of a combined cycle can be mounted on a common axis or on two independent axes, aligned or not. In the representation of the single figure there is shown a combined cycle with a common axis without this being limiting for the invention.

 The invention relates to a device for maintaining the pressure of the supply steam to the steam turbine 4 during the turning procedures of the gas turbine 3.

 In the procedure for turning the gas turbine, the device comprises at least one flap 11 mounted in the exhaust outlet 9, and closing off said exhaust outlet, and deflection means 12 mounted between the outlet of the gas turbine 7 and the inlet of the recovery boiler 1, putting the outlet 7 of the gas turbine in communication with the atmosphere 13.

 Thus, the stream of cold gas 10 resulting from the turning of the gas turbine 3 can it no longer pass through the recovery boiler closed by the flap 11 and therefore is discharged to the atmosphere 13 through the deflection means 12 upstream of the exchangers 6.

 Advantageously, the flap 11 is movable between a closed position in which it obstructs the exhaust outlet 9 and an open position in which the exhaust outlet 9 is open, and the deflection means 12 are movable between a deflection position in which the outlet 7 of the gas turbine 3 is in communication with the atmosphere 13 and a sealed position in which the outlet 7 of the gas turbine 3 is sealingly connected to the inlet 8 of the recovery boiler 1.

 In the operating position of the thermal power plant, the deflection means are in the sealed position and the shutter in the open position. The hot exhaust gases from the gas turbine pass through the recovery boiler where there is a heat exchange between the steam circulating in the exchangers and said hot exhaust gases.

 In the turning position of the gas turbine, the deflection means are in the deflection position and the shutter in the closed position. The cold gases from the gas turbine do not pass through the recovery boiler and are discharged to the atmosphere upstream of it.

 For gas turbine cornering speeds of the order of 100 to 200 rpm for several hours, the installation of such a device according to the invention makes it possible to reduce the pressure drop of the steam turbine d '' at least a factor of 3.

 Of course, the invention is not limited to the embodiment described and shown, but it is susceptible of numerous variants accessible to those skilled in the art without departing from the invention. In particular, without departing from the scope of the invention, any means can be replaced by equivalent means.

Claims (2)

 1. Device for maintaining the pressure of the steam of a boiler (1) for recovering a combined cycle thermal power station having a gas turbine (3) and a steam turbine (4), said recovery boiler (1 ) having an inlet (8) connected to the outlet (7) of the gas flow from the gas turbine (3), and an exhaust outlet (9), characterized in that in the procedure for turning the gas turbine (3), it comprises at least one flap (11) mounted in the exhaust outlet (9), and closing off said exhaust outlet (9), and deflection means (12) mounted between the outlet (7) of the gas turbine (3) and the inlet (8) of the recovery boiler (1), putting the outlet (7) of the gas turbine (3) into communication with the atmosphere (13).  2. Device according to claim 1 characterized in that the flap (11) is movable between a closed position in which it obstructs the exhaust outlet (9) and an open position in which the exhaust outlet (9) is open , and in that the deflection means (12) are movable between a deflection position in which the outlet (7) of the gas turbine (3) is in communication with the atmosphere (13) and a sealed position in which the outlet (7) of the gas turbine (3) is tightly connected to the inlet (8) of the recovery boiler (1), and in that when the flap (11) is in the closed position, the deflection means (12) are in the deflection position, and when the flap (11) is in the open position, the deflection means (12) are in the sealed position.