SU1041714A1 - Steam-turbine plant - Google Patents

Description

The invention relates to heat aids, namely steam turbine installations with regenerative preheaters and a constant pressure deaerator. A steam turbine plant is known that contains regenerative heaters connected in series to the main condensate path, each of which is connected to a corresponding regenerative withdrawal, and deaerator j connected through a shut-off valve to two regenerative withdrawals. In the nominal and close to it modes of operation of a steam turbine installation, the deaerator is connected to a regenerative selection of lower pressure, and in partial modes to a selection of greater pressure, which maintains constant pressure, in the deaerator 03 The disadvantages of this steam turbine installation when operating on partial modes compared to with nominal and close to it modes are reduced efficiency due to an increase in consumption of 8–1 copotential steam, when switching the power of the de-aerator to regenerative large-scale selection its high pressure; lower quality of deaeration due to the reduced temperature of the main condensate entering the deaerator and the need, therefore, to increase its heating in the deaerator. The purpose of the invention is to increase the efficiency of the steam turbine installation and the efficiency of deaeration in partial modes. This unit is achieved by the fact that a steam turbine plant containing regenerative preheaters connected in series into the main condensate path, each of which is connected to a corresponding regenerative withdrawal, and a deaerator connected through a stop valve to two regenerative withdrawals, is equipped with an additional heater with bypass and installed on the last shut-off valve, the additional heater is connected to the main condensate between the last regenerative heater and eaeratorom, and a pair of - constipation hydrochloric through the valve to the selection of a low pressure deaerator. The drawing shows a schematic diagram of a steam turbine installation. The steam turbine plant contains a turbine 1 with a condenser 2 and a path 3 of the main condensate, with successively connected regenerative heaters i and 5 of low pressure, each of which is connected by pipelines 6 and 7 with shut-off valves 8 and 9 to the corresponding regenerative selection and deaerator 10, connected by pipelines 11 and 12 with shut-off valves 13 and W kdvum regenerative selections. The plant is also equipped with an additional preheater 15, included in the main condensate path 3 between the last low pressure regenerative preheater 5 and the deaerator 10, and through the steam through a pipe 16, through a stop valve 17 connected to the lower pressure steam pipe 11 to the deaerator 10. Additional the heater 15 is equipped with a bypass 18 with a stop valve 19 installed on it. The steam turbine installation works as follows. In the nominal and close to it modes, the deaerator 10 is connected in pairs to the pipeline 11 of the regenerative extraction of lower pressure by opening the shut-off valves 13. The shut-off valves 1 in the pipeline 12 are closed. At the same time, the shut-off valves 17 on the pipeline 1b, connecting the additional heater 15 to the pipeline 11 of the lower pressure regenerative take-off, disconnected from the deaerator 10, are closed, and the shut-off valves 19 on the bypass 18 are open. The main condensate is heated in standard regenerative preheaters 4 and 5 and. deaerator 10, additional heater 15 for the main condensate and a couple off. In partial modes, the power supply of deaerator 10 with steam is switched from regenerative selection of lower pressure to selection of greater pressure by pulling the shutoff valves 13 to the pipe 11 and opening the shutoff valve 1 on the pipeline 12, the additional heater 5 is connected in series by condensate to the regenerative heaters t and, 5 by closing the valves 1 and bypass 18, and a couple by opening the valves 17 on the pipe 16. The main condensate is heated in standard heaters k and S, additional heating body 15 and deaerator 10. Thus, in partial modes, the regenerative system of a steam turbine plant equipped with an additional low pressure preheater 15 uses a regenerative selection steam that is disconnected from the deaerator 10. The proposed steam turbine unit improves the economy by reducing steam consumption by a deaerator from a regenerative selection of higher pressure, which is associated with an increase in the temperature of the main condensate entering the deaerator due to its heating in an additional regenerative m heater connected to the regenerative selection of lower pressure supplying the deaerator in the basic modes, and also increases the efficiency of deaeration by increasing the temperature of the main condensate entering the deaergger, since the heating of the main condensate in the additional heater before the deaerator ensures the latter with the optimal heating value .

Claims (1)

A steam turbine installation containing regenerative heaters connected in series to the main condensate path, each of which is connected to the corresponding regenerative extraction, and a deaerator connected through shutoff valves to two regenerative extraction, characterized in that, in order to increase the efficiency and efficiency of deaeration in partial modes, the installation is equipped with an additional heater with a bypass and shut-off valves installed on the last, and the additional heater is connected by the main condensate between the last regenerative heater and the deaerator, and by steam through the stop valves to select a lower pressure on the deaerator. - "SU ,,,, 1041714