EP2801703A1 - Steam turbine plant with sealing steam line - Google Patents

Abstract

The invention relates to a plant (1) comprising a turbomachine (2, 3, 4), a sealing steam line for supplying sealing steam and a vapor steam line (9) for discharging steam vapor, wherein the spindle outlet steam line is fluidically connected to the vapor steam line.

Description

The invention relates to a system comprising a turbomachine, a sealing steam line for supplying sealing vapor and a Wrasendampfleitung for discharging Wrasendampf.

A facility such as As a rule, a steam turbine plant comprises a turbomachine designed as a steam turbine, which essentially has a rotatable rotor and a stationary housing. The rotor is in this case rotatably mounted within the housing. The steam turbine is supplied with steam via a steam generator. For thermodynamic reasons, a steam turbine comprises several sub-turbines, such as e.g. a high pressure, medium pressure and / or low pressure turbine part. There are embodiments in which the aforementioned sub-turbines are housed in separate housings.

The steam is fed via inflow into the steam turbine and discharged through outlets from the steam turbine. In this case, the steam generally has high temperatures and high pressures, which means that as a result of the rotatable mounting of the rotor, a leakage steam could escape from the turbine interior into the atmosphere. Therefore, today the steam turbines are subjected to a so-called sealing steam, which counteracts a sealing steam to the effluent steam in the storage area at the ends of the steam turbine.

So that the sealing vapor in turn does not enter the atmosphere, a so-called Wrasendampfabsaugung is considered, with the means of a slight negative pressure relative to the atmosphere, on the one hand air from the atmosphere and on the other hand a small amount of sealing steam is sucked to a so-called Wrasendampf. This steam vapor is condensed in a Wrasendampfkondensator and the air separated in a complicated process from the steam.

The steam turbines are supplied with steam via quick-closing and / or control valves. The control valve regulates the steam supply, the quick-acting valve in the case of a quick closing, such. a fault that stops steam supply abruptly. Valves designed for this application have a longitudinally displaceable poppet that can be moved against a valve sleeve. Since the steam is also in the valve under a high pressure and a high temperature, inevitably creates a leakage steam, which can flow out of the valve. Therefore, when the turbine's quick-closing and / or valve is closed, steam will escape through the gland. In this case, MAM system lines are provided which divert the spindle leak steam into the shaft seal steam system.

However, this hot spindle steam causes higher costs for the shaft seal steam system, because of the high temperature of the spindle flash steam, the use of high-quality expensive materials is necessary. The hot spindle leak steam can damage individual components of the steam turbine, such as e.g. the shaft or housing when the spindle leak steam enters the turbine through the shaft seals. This is despite all then the case when the steam boiler or the heat recovery steam generator is in operation and the steam turbine is stopped.

Thus, the material of the shaft seal system is designed for the high temperatures of the spindle leak steam, resulting in increased costs. In this case, to prevent damage, when the temperature in the shaft seal vapor system rises too high, auxiliary cooling steam is fed into the shaft seal vapor system.

The object of the invention is to provide a system comprising a turbomachine, with a safe operation is possible.

This object is achieved by a system comprising a turbomachine, a sealing steam line for supplying sealing steam, a Wrasendampfleitung for discharging Wrasendampf, wherein a Spindelleckdampfleitung is provided, which is fluidly connected to the Wrasendampfleitung and designed to conduct spindle leak steam.

Thus, the new path according to the invention is taken, no longer supply the spindle leak steam, which comes from the valve, the sealing steam, but to lead the spindle leak steam into the Wrasendampfleitung.

In the dependent claims advantageous developments are given.

In a particularly advantageous development, an ejection device is arranged in the spindle outlet steam line, which is designed to spray off the spindle leak steam with a spray-off agent.

Preferably, water is used as a spray. Thus, according to the invention, the temperature of the spindle leak steam is reduced by the spray device, which means that materials can be used in the vapor steam line and in the spindle outlet steam line, which are significantly less expensive.

In a further advantageous embodiment, a plurality of steam steam lines are connected to the turbomachine and connected to a vapor steam manifold, wherein the spindle steam line is fluidically connected to the Wrasendampfsammelleitung. Thus, it is considered that a plant can be formed of several sub-turbines and a cost-effective solution can be found therein in which a Wrasendampfsammelleitung is arranged, which collects the individual Wrasendampfleitungen coming from the sub-turbines and leads to a Wrasendampfkondensator. Before the Wrasendampf is led to Wrasendampfkondensator, the Wrasendampf over the inventive Spindelleckdampfleitung and the Abspritzvorrichtung mixed with the spindle leakage steam.

In a further advantageous development, a control device is connected to the ejection device, wherein the control device is designed to control the amount of Abspritzmittels. Thus, the temperature reduction can be controlled with the control device, which results in that the temperature in the Wrasendampfleitung can be adjusted.

An embodiment of the invention is shown in more detail in the figure.

The figure shows schematically a plant.

The figure shows a plant 1 comprising a first turbine part 2, a two-flow turbine part 3 and a further twin-bladed turbine part 4. The sub-turbines 2, 3 and 4 are supplied via steam supply lines not shown with steam. In the end regions, sealing steam lines 5 are provided in the storage area, which are supplied with sealing steam via an auxiliary steam generator 6 and a sealing steam valve 7. In addition, according to the prior art, which is represented by the cloud-like encircling, the sealing steam line 5 is acted upon by a spindle leak steam 8. The Wrasendampf mixed with the sealing steam and the atmospheric air is passed through Wrasendampfleitungen 9 in a Wrasendampfsammelleitung 10.

In this Wrasendampfsammelleitung 10 is now according to the invention more spindle leak steam 11 via a sprayer 12, which is for spraying the spindle leak steam 11 with a Abspritzmittel, which is water.

The Spindelleckdampfleitung is thus fluidly connected to the Wrasendampfsammelleitung 10 and for conducting formed by spindle outlet steam. Several vapor steam lines 9 are connected to the steam turbine 2, 3 and 4 and connected to a Wrasendampfsammelleitung 10, wherein the Spindelleckdampfleitung 13 is fluidically connected to the Wrasendampfsammelleitung 10. The steam vapor mixed with the spindle leak steam is then finally collected in a steam vapor condenser 14.

The spray device 12 has a control device, not shown, with which the amount of Abspritzmittels is controlled so as to optimize the temperature of the spindle leak steam.

Claims (6)

Comprising Annex (1)
a turbomachine (2, 3, 4),
a sealing steam line for supplying sealing steam,
a Wrasendampfleitung (9) for removing vapor vapor, characterized by
a Spindelleckdampfleitung which is fluidically connected to the Wrasendampfleitung (9) and
designed to conduct spindle leakage steam. Plant (1) according to claim 1,
wherein the turbomachine (2, 3, 4) is designed as a steam turbine. Plant (1) according to claim 1 or 2,
wherein in the Spindelleckdampfleitung an Abspritzvorrichtung (12) is arranged, which is formed for spraying the Spindelleckdampfes with a Abspritzmittel. Plant (1) according to claim 3,
wherein water is provided as Abspritzmittel. Plant (1) according to one of the preceding claims, wherein a plurality of vapor steam lines (9) are connected to the turbomachine (2, 3, 4) and are connected to a steam vapor collecting line (10),
wherein the spindle outlet steam line is fluidically connected to the vapor steam manifold (10). Plant (1) according to one of the preceding claims, wherein a control device is connected to the injection device,
wherein the control device is designed to control the amount of Abspritzmittels.

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