Power plants – Motive fluid energized by externally applied heat – Power system involving change of state
Reexamination Certificate
2000-09-11
2002-01-08
Nguyen, Hoang (Department: 3748)
Power plants
Motive fluid energized by externally applied heat
Power system involving change of state
C251S208000, C251S304000
Reexamination Certificate
active
06336330
ABSTRACT:
BACKGROUND OF THE INVENTION
Field of the Invention
The invention relates to a steam-turbine plant, wherein a steam-collecting space is arranged upstream of its steam turbine and a steam-inlet valve is provided for controlling the introduction of steam into the steam-collecting space.
Steam-turbine plants are generally used for generating electrical energy or even for driving a machine. A working medium, normally a water-water/steam mixture, which is directed in an evaporator circuit of the steam-turbine plant, is evaporated in an evaporator. The steam generated in the process expands to perform work in the steam turbine and is then fed to a condenser or a machine. The working medium condensed in the condenser is then fed back to the evaporator via a feedwater pump.
In steam-turbine plants, control valves designated as nozzle-group control serve to control the introduction of steam into a steam-collecting space. The control valves are normally opened and closed by a spindle system or by a hydraulic drive. In the case of a spindle system, the control valves are hung in a beam which is arranged in the steam-collecting space and can be moved by two spindles. Alternatively, the control valves may have hydraulic individual units. The hydraulic individual units normally actuate the individual control valves via a linkage.
Such control valves require especially high actuating forces, since they have to be closed counter to the direction of the steam flow. High actuating forces in turn slow down the actuating speed of the control valves and thus have an adverse effect on the control performance of the control valves. In addition, the spindles of the spindle system or of the linkage of the hydraulic system are normally passed in each case through a stuffing box through the casing of the steam-collecting space. Since the respective nozzle-group control is actuated through the corresponding stuffing boxes, losses of steam cannot be avoided in the process. Such losses may turn out to be especially high where there are a plurality of stuffing boxes.
SUMMARY OF THE INVENTION
The object of the invention is to provide a steam turbine plant which overcomes the above-noted deficiencies and disadvantages of the prior art devices and methods of this kind, which has a steam-inlet valve that permits an especially high control performance and in which steam losses turn out to be especially low.
With the above and other objects in view there is provided, in accordance with the invention, a steam-turbine plant, comprising:
a steam turbine and a steam-collecting space with an inlet side upstream of the steam turbine;
a steam-inlet valve disposed to control a flow of steam into the steam-collecting space at the inlet side;
the steam-inlet valve having a housing formed with a steam inlet and a steam outlet, and a rotary cylinder disposed in the housing and forming a shut-off member, the rotary cylinder being formed with a passage enabling a connection between the steam inlet and the steam outlet.
In other words, the objects of the invention are achieved in that the steam-inlet valve of the steam-turbine plant has a rotary cylinder arranged as a shut-off member in a housing.
The steam inlet provided in the housing can be connected to a steam outlet provided in the housing via a passage arranged in the rotary cylinder.
The invention is based on the idea that an especially high control performance can be achieved for a steam-inlet valve of a steam-turbine plant by this steam-inlet valve being designed for especially low actuating forces. Especially low actuating forces are possible if the steam-inlet valve is designed in such a way that actuating movements in a direction along the direction of the steam flow are largely avoided. This can be achieved in an especially simple manner by the steam-inlet valve being designed not for linear actuating movements but for rotational actuating movements. To this end, a rotary cylinder is provided as a shut-off member of the steam-inlet valve. In such an arrangement, the number of requisite seals is also especially small. The steam-inlet valve therefore has especially low losses of steam.
In accordance with an added feature of the invention, the rotary cylinder has a peripheral surface and the passage of the steam-inlet valve extends along the peripheral surface of the rotary cylinder, i.e., the passage is run on the surface of the rotary cylinder. This is because a steam-inlet valve of such a design can be adapted to various requirements in an especially flexible manner. For example, the steam inlet can be connected to the steam outlet even in different positions of the rotary cylinder if a suitable length of the passage is selected.
In order to additionally keep the risk of steam loss especially low, the housing enclosing the rotary cylinder is advantageously made in one piece. The rotary cylinder is thereby inserted into the housing via a single access opening, which is sealed off from the surroundings via an end plate arranged on-the free end of the rotary cylinder.
The end plate of the steam-inlet valve is advantageously designed in such a way that it has a crenellated profile, in cross section, on its side facing the housing of the rotary cylinder. Steam escaping at the sealing point must then cover an especially long distance to reach the surroundings, as a result of which the risk of undesirable steam escape is kept especially low.
That end of the rotary cylinder which is arranged inside the housing is advantageously mounted in a conical bearing element arranged in the housing of the rotary cylinder. This is because such a configuration permits especially simple assembly, since the conical bearing element results in automatic centering when the rotary cylinder is inserted.
The steam-inlet valve advantageously has a spring system which mechanically preloads the rotary cylinder. In this design, the steam-inlet valve is suitable for especially short quick-closing times and closes automatically in the event of a failure of the system controlling the rotary movement of the rotary cylinder.
Steam losses caused by an accident can thus be avoided.
Depending on the operating mode and the operating conditions, the steam to be introduced into the steam-collecting space may contain an especially high proportion of impurities. So that the steam-inlet valve is insensitive to such impurities, it advantageously has a rotary cylinder whose surface is made of a ceramic material. This is because a ceramic material has especially low adhesion for impurities in the steam and is also especially insensitive to excessive temperature changes.
In order to also ensure operating capability even in the case of especially low steam quality, a permanent high-frequency disturbance signal may be applied as actuating signal to the steam-inlet valve, and this disturbance signal ensures ease of motion of the valve.
The passage run in the surface of the rotary cylinder advantageously has a narrowing cross section. This is because different flow rates of the steam can then be set when the passage is appropriately positioned relative to the steam inlet and/or the steam outlet.
In accordance with another feature of the invention, the passage advantageously has an arc angle which is defined by a starting point and by an end point of the passage relative to the rotary-cylinder axis and is greater than 180°. In other words, the passage extends over more than half the circumference of the rotary cylinder. This is because an especially large number of combinations of a passage cross section with a steam inlet and/or steam outlet are possible in this design.
For special flexibility when setting the flow rate of the steam, the steam-inlet valve advantageously has a plurality of passages which are arranged on the surface of a common rotary cylinder. In this arrangement, a steam inlet can be connected in each case via a passage to a steam outlet assigned to it. In such an arrangement, given a suitable design of the rotary cylinder, it is possible to open one or more passages in a specific manner depending on t
Greenberg Laurence A.
Lerner Herbert L.
Nguyen Hoang
Siemens Aktiengesellschaft
Stemer Werner H.
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