DE941164C - Double-walled component to accommodate a highly heated, pressurized medium for thermal power plants - Google Patents

Description

Double-walled component to accommodate a highly heated, under pressure standing means for thermal power plants addition to patent 866417 The invention relates a double-jacketed component to accommodate a highly heated, pressurized Means for thermal power plants, in which there is a of a coolant is flowed through space and on the outer shell of a number Pipe socket for connection with an inner cavity of the component is attached, mach the patent claim dels patent 866 417.

Such components are according to the claim of the main patent in designed in such a way that inside the pipe socket by coaxially to 'the same: arranged hollow body spaces are limited, the forced guidance of a Part of the coolant sweeping the space between the two jackets in such a way cause heat transfers from. the innermost of the nozzle hollow body through-flowing, highly heated agent on the associated, pipe, socket. largely are prevented.

Double-walled components of this type are used in thermal power plants, for example as collectors for that flowing from a heater in a number of pipes and the working fluid to be supplied to the turbine is used. To the double-walled component then has to connect a double-jacketed pipe to produce the connection with the turbine. Such double-ended pipes, however, are expensive in production and also take up a lot of space. The purpose of the invention is both a reduction of the Axfagekost @ ten a double coat. Component the described. Kind having heat, ekraftanlage-e as well as the possibility a compact arrangement of the whole insert 'to achieve what: especially then It is of importance when, as for example in shafts, only a limited space is available Available.

According to the invention, this is achieved by using a double-walled Component according to the claim of the main patent, which is the collection of the turbine A thermal power plant to be supplied gaseous propellant is used, the outer jacket is at least partially formed by the inlet nozzle of the turbine housing itself and the inner cavity of the component forms the inlet space of the turbine.

In particular: there is a compact design if the propellant compressor of the thermal power unit with the turbine in the same housing; 'Of the The machine set is then twice as follows. built that the .gap between the two jackets of the .double-jacket component an outlet space of this propellant compressor forms, at least -a part of the propellant conveyed by the compressor this Interspace flows through as coolant.

The drawing shows an embodiment of the subject matter of the invention in connection with the turbine and compressor. Machine set for one Thermal power plant with gaseous propellant shown in my axial longitudinal section. .

The turbine has an outer casing i, one of which by a Isolation 2 separate inner housing 3 and: .one with a common turbine and compressor shaft ¢ made of one piece rotor 5 on. The wave q. is stored in two "bearings 6 and 7. The turbine housing has an inlet connection 8 and an outlet nozzle 9. At the inlet nozzle B is a pipe socket i o provided hood i i .flanged.

The inlet connection 8 and the hood i i together form the outer jacket of a double-walled component, the inner jacket of which is replaced by a double-walled Hollow body 12 is formed with an insulating material layer, which has an inner cavity 13 encloses. This. Innenhohlrä.um also forms the entry space of the Turbine. The outer jacket and the inner jacket leave a rough 14 between one another.

Highly heated fluid is pressurized through the pipe socket from, through $ ußwohlren 15 into the interior of the double-layered component. Inside the pipe socket: there are two hollow bodies on the same axis 16 and 17 arranged, which delimit the spaces 18 between one another. The highly heated Propellant flows through the innermost 1b -this' hollow body; .um into the inner cavity 13 of the component and thus to get into the turbine.

Ornamental propellant compressor of the thermal power plant is with the turbine assembled in the same housing i. The still cold propellant is coming from the left sucked in and flows through one after the other three Vezdichter impellers 19, 20, 21 radial Design type.

After leaving the last compression stage, the propellant arrives in the space 1 [between the two jackets of the double-walled component. This space forms the outlet space of the propellant compressor: The propellant delivered by the compressor flows through the space 14 as a coolant. Some of it then passes directly through an opening 22 into an outflow line 23

The remaining part of the coolant is forced by the the hollow bodies 16 and 17 limited spaces 18 out to only afterwards in to cross the drainage line 23. Here are heat transfers from which the innermost nozzle hollow body 16 flowing through highly heated agent on the associated Pipe sockets largely avoided.

Claims (2)

PATENT CLAIMS: i. Double-walled component to accommodate the highly heated, pressurized, the turbine one. Gaseous thermal power plant to be supplied Propellant, in which there is a coolant between the two jackets "The space through which there is a flow and a number of pipe sockets on its outer jacket Connection of .Dischfiußrohren with an inner cavity of the component b: efestigt are, whereby according to 'Patent 866 417 in the inner - the. Pipe socket through coaxially to denelhen arranged hollow body spaces are limited, .the forced guidance part of the coolant sweeping the space between the two jackets in such a way that heat transfers from the innermost of the nozzle hollow bodies flowing through, highly heated agent largely on the associated pipe socket are prevented, characterized in that. the outer jacket at least partially is formed by the inlet nozzle (8) of the turbine housing itself and the inner cavity (13) of the component forms the inlet chamber of the turbine. 2. Chaff casing component nach .Anspruch i, characterized in that the space (1q :) between the both jackets eirien the outlet space of one assembled with the turbine in the same housing Forms propellant compressor of the thermal power plant and that at least part of the propellant conveyed by the compressor flows through this space as coolant.