SU920239A1 - Steam power plant - Google Patents

Description

(54) PAROSIL INSTALLATION

The invention relates to power and hydraulic engineering, in particular steam turbine power plants, and can be used in various drive systems for converting thermal energy into mechanical energy with strict limitations on the dimensions and weight of the plant while maintaining high power. H-most closely related to the invention is a steam-powered unit comprising a steam generator, a turbine, a condenser and a condensate pump coaxially mounted on a base in bearing supports, the condenser and the steam generator being made in the form of bodies of rotation, the condenser is attached to steam generator and is shifted relative to it to the axis of rotation, and the pump impeller is attached to the end of the steam generator 1. The disadvantages of the known installation are the complexity of the design and lower tightness of the circuit, due to the separate execution of the steam generator and the turbine impeller, their connection using a gear, as well as the presence of movable seals between the steam generator and the impeller and between the impeller and the condenser. The aim of the invention is to simplify the design and increase the tightness. This goal is achieved by the fact that the turbine impeller is attached to the end of the steam generator opposite to the end to which the pump impeller is attached. In the embodiment of the embodiment, the installation is equipped with a guide vane mounted between the exit from the turbine impeller and the input to the condenser to a sealed shaft rigidly connected to the base. With this design of the device, all elements of the contour of the steam-powered unit are rigidly connected in a common rotating housing, the gears of the gears and, in the absence of the fixed guide vanes, movable seals over the working fluid are eliminated. The introduction of a fixed guide vane provides an increase in the power of the plant due to the spinup of the exhaust steam flow. The drawing shows the proposed steam-powered installation, axial section.

The device comprises a base 1 and a steam generator 5, a turbine 6, a condenser 7 and a condensate pump 8, connected in series in a closed hermetic circuit, the cavity of which is partially filled with working fluid and its steam, coaxially mounted on it in bearing supports 2 and 3 and axially supported 4. The condenser 7 and the steam generator 5 are made in the form of bodies of rotation, the condenser 7 is attached to the steam generator 5 and is shifted relative to it to the axis of rotation. The impeller of pump 8 is attached to the end of the steam generator 5, and the turbine impeller 6 is attached to its opposite end. The outer heat-conducting wall of the steam generator 5 is located between the heat inlets 9 of the hot heat source 10, for example, between the gas burner nozzles. The output from the impeller of the turbine 6 is directed to the cone 11 of the condenser 7. The inner wall of the cone 11 is adjacent to the annular cavity 12, partially filled with refrigerant, and on this inner wall are the blades of the impeller 13 of the cooler leading to the cavity 12 in front of the auger 14. On the outer side the end of the steam generator 5 adjacent to the cavity 12, the fan wheel 15 is located. The opposite end of the steam generator 5 is rigidly connected to the power take-off 16, which is connected to the drive element, for example an electric generator, and the starting element igatelem through an overrunning clutch (not shown). In the space between the blades of the turbine impeller 6, the impeller of the pump 8, the cavity of the steam generator 5 and the cavity of the capacitor 7 are placed a mountain-like body 17 filled with thermally insulating material. In an embodiment of the device, between the exit from the impeller of the turbine 6 and the inlet to the condenser 7, a guide device 18 is mounted, rigidly connected to the base 1 via a stationary shaft 19, sealed by a seal 20.

The installation works as follows. When starting, the steam generator 5 together with the impellers of the turbine 6 and the pump 8 and the condenser 7 is unwound by the start-up engine, then the heat source-gas multi-burner 10 is turned on. The working fluid film adjacent to the heated wall of the steam generator 5 evaporates and a pressure differential occurs between the steam generator 5 and capacitor 7,

which is triggered on the impeller of the turbine 6, then the exhaust steam, in the presence of the guiding apparatus 18, is unwound last and condenses on the cone 11 of the condenser 7. After that, the condensate enters the impeller inlet of the pump 8 and is supplied to the steam generator 5, the described work cycle is repeated and the engine goes to normal mode with the power output through the shaft 16 driven element.

In the cooler, the blades of the impeller 13 pump over the refrigerant, cooling the condenser 7, cooling the heat of the refrigerant 7, and returning the coolant refrigerant 13 to the impeller 13.

The simplicity and high reliability of the design, compactness and high specific power of the proposed steam power plant make it possible to use it, for example, as a drive for vehicles, high-speed hydraulic pumps, etc.

Claims (2)

1. A steam power unit containing a steam generator, a turbine, a condenser and a condensate pump coaxially mounted on the base in the bearing supports, connected in series to a closed hermetic circuit, the condenser and the steam generator being in the form of bodies of rotation, the condenser is attached to the steam generator and is offset relative to it. rotation, and the pump impeller is attached to the end of the steam generator, characterized in that, in order to simplify the design and increase the tightness, the turbine impeller attached It is located at the opposite end of the steam generator. 2. The installation according to claim 1, characterized in that it is provided with a guide apparatus installed between the exit from the impeller of the turbine and the inlet to the condenser. Sator on a sealed shaft rigidly connected to the base. Sources of information taken into account during the examination 1. US Patent No. 3950950, cl. 60/657, published. 1976.