FI93055C - Waste heat steam boiler - Google Patents

Description

WASTE HEAT STEAM BOILER - SPILLVÄRME-ÄNGGENERATOR 93055

The invention relates to a waste heat steam boiler used after a gas turbine and comprising at least one cylinder connected to a circulation system consisting of at least one downcomer, at least one evaporator heating surface and at least one riser, the downcomers being directed downwards to such a level deeper than the inflow collector of the evaporator heating surface 10, so that water flows from the bottom upwards before it flows to the collector, which evaporator heating surface is arranged horizontally and which circulation is a natural cycle.

One such steam boiler is disclosed in U.S. Pat. 2031423. However, its disadvantage is the lack of devices to speed up the water circulation.

There are usually two types of waste heat boilers of the structure-20, either natural cycle or forced cycle. In the natural cycle, the evaporator bundles are placed in a horizontal flue gas duct as a vertical structure and the steam is connected to the cylinder through downcomers and risers. In this case, the heating surface tubes of the superheater and the water pre-heater or various other heating surfaces, if any, can be of horizontal and / or vertical construction.

In the forced circuit, the heating surface pipes of the superheater, evaporator and water preheater or other heating surfaces, if any, are arranged in a vertical flue gas duct as a horizontal structure. The evaporation heating surfaces are connected to at least one steam cylinder via downcomers, recirculation pumps and risers. Recirculation pumps, which ensure the circulation of water in the evaporator, are included in the cost of the plant in terms of cost and workload, and in addition constitute one of the factors.

It is an object of the present invention to provide a waste heat steam boiler which is connected downstream of a gas turbine and which has the advantage that the water circulation is ensured without the use of recirculation pumps.

This object is solved by a waste heat steam boiler, which is characterized in that at least one injector is provided as a starting aid, which only in the starting phase feeds the water part flow in the desired flow direction to the downcomer system and / or the riser system.

Thanks to the invention, there is no need for recirculation pumps, which, in addition to costs, complicate the structure and increase the susceptibility of the plant to interference.

The invention can also be implemented in that a device for supplying steam, a steam-water mixture, gases such as nitrogen or the like to a riser system is provided as a starting aid 15.

Finally, the invention can be implemented in such a way that a connecting line is arranged between each inlet and outlet collector of the evaporator heating surface as a starting aid.

Other details of the invention will be described in more detail with the aid of a drawing, which schematically shows an embodiment of a waste heat steam boiler according to the invention.

The present waste heat steam boiler is a vertical structure with one evaporating heating surface 1, one cylinder 2, a downcomer system 3, a riser system 4, and a supply pipe 5 with a feed pump 6. The cylinder 2 is connected to the outlet system 3 from the water side to which a pipe system of the evaporation heating surface 1 is connected. The term "underwork" is to be understood so that the downcomers 3 are brought down-35 to a level lower than the inlet manifold of the evaporating heating surface 1, so that the water flows from the bottom upwards before it enters the manifold. "Underwork" can thus be understood as a kind of water trap. The steam heating surface I of the steam 3 93055 is connected on the outlet side to an outlet manifold 8, to which the riser system 4 terminates, which is connected to the steam space of the cylinder 2 via the upper push 9, or directly to the water space 11 of the cylinder 2 via the pipe system 10.

5 The term "overflow" shall be understood to mean that the steam water mixture is introduced into cylinder 2 above its water surface.

The supply pump 6 supplies water from a supply water tank or the like through a supply pipe 5 to the water space 11 for post-supply 10.

Various systems can be used as a starting aid to accelerate the water circulation in the start-up phase: 15 According to the first option, an injector 12 is ensuring a dynamic addition to the water cycle during the start-up phase.

Alternatively, there is a pump 16 in the side flow pipe 15 connecting the downcomer system 3 to the injector 17 in the riser-25 pipe system 4. This pump 16 supplies boiler water: to the upcomer system 4 in the flow direction through which the again get connected 30 off.

* Within the scope of the invention, it is also possible to connect the pipe 15 to the pipe 5, in which case the feed water is introduced and the pump can be removed. Of course, water can also be taken from every other system.

According to a third alternative, steam, nitrogen or other gas can be blown into the riser system 4 from a pipe 18 with a shut-off device 19, e.g. a valve, a tap, a tap or the like. This measure strengthens the effect of the heat siphon and ensures the acceleration of the cycle during the start-up phase.

5 In the fourth alternative, the shut-off device 21, e.g. when vapor bubbles form, this accelerates the water circulation during the start-up phase by directing them directly to the riser system 4.

By suitable dimensioning of the evaporation heating surfaces 1 and the downcomer systems 3 or 4, the thermal siphon effect of the water circulation can advantageously be improved.

In addition, it is preferable to use 1 rib-20 tubes as the evaporation heating surface, as shown in the drawing.

By lowering 29 and preferably also by upper pushing 9 and / or by connecting the riser system 4 directly to the water space 11 of the cylinder 2, the waste heat steam boiler can be kept in its known embodiment and the use of recirculation pumps in the water circuit can be dispensed with.

When using waste heat boiler after the gas turbine is placed in the evaporation 1, as shown, VAA-30 horizontal direction texture in the waste gas channel 23 in which one or more of the gas turbine, the waste gases flowing direction of arrow A, wherein the höyrystyslämpöpinnan upper one and / or below may be the same as a horizontal structure superheater 24, on each inlet side, the inlet manifold 30 and 35 communicate via a pipe 25 with the steam space 26 of the cylinder 2 and through an outlet manifold 31 and a pipe 27 provided with a shut-off device 28 leads to the turbine.

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Claims (3)

A waste heat meadow generator for use downstream of a gas turbine, wherein at least one drum (2) is provided, which is included in a circulation system consisting of at least one fall pipe (3), at least one exchanger heat surface (1), and at least one riser pipe ( 4), wherein the drop tubes (3) extend downwardly to a tab lower than the inlet collector (7) of the exchanger heat surface (7) such that water flows from below and upstream before entering the collector (7), and wherein the exchanger heat surface (l) is arranged horizontally and the circulation system is a natural or self-circulation system, characterized in that at least one injector (12, 17) is provided which, during the initial phase, feeds only a partial stream of water with the desired flow direction in the downpipe system (3) and / or riser system (4). A waste heat generator for use downstream of a gas turbine, wherein at least one drum (2) is provided, which is included in a circulation system consisting of at least one drop pipe (3), at least one exchanger heat surface (1) and at least one riser pipe ( 4), wherein the drop tubes (3) extend downwardly to a tab lower than the inlet collector (7) of the exchanger heat surface (7) such that water flows from below and upstream before it enters the collector (7), and the exchanger heat surface (1) is arranged horizontally and the circulation system is a natural or self-circulation system, characterized in that as a starting aid is a device for feeding meadow, meadow / water mixture, gases such as nitrogen or the like, arranged in the riser system (4). A waste heat generator for use downstream of a gas turbine, wherein at least one drum (2) is provided, which is included in a circulation system consisting of at least one fall pipe (3), at least one exchanger heat surface (1) and at least one risers ( 4), wherein the drop tubes (3) extend downwards to a pane lower than the inlet collector of the exchanger heat surface (1) so that water flows from below and upstream before entering it into the collector (7), and wherein the exchanger heat surface (1) is arranged horizontally and the circulation system is a natural or self-circulation system, characterized in that, as a starting aid, at least one inlet and outlet collector (7 and 8), respectively, is provided in the exchanger heating surface (1) with a shut-off connection line (22). t.