SU1002617A1 - Steam power plant - Google Patents

Description

(54) PAROSIL INSTALLATION

The invention relates to energy, and more specifically to thermal circuits of thermal power plants and can be used in the design, construction and operation of thermal power plants with drum boilers.

A steam-powered installation is known, containing a drum-type boiler, the continuous blowout expander of which is connected a couple to the deaerator, and the latter is connected to the steam extraction line from the turbine 1.

A disadvantage of the known installation is the thermodynamic losses with a stream of selected superheated steam to the deaerator.

The purpose of the invention is to increase the efficiency of the steam power plant.

This goal is achieved by the fact that in a steam-powered installation containing a drum boiler, the continuous blowout expander of which is connected to the deaerator a couple, and the latter is connected to the steam extraction line from the turbine, the continuous blower expander is provided with a tube bundle located below rassechku the pipeline of selection of steam.

The drawing shows a schematic diagram of the proposed installation.

The steam-powered unit contains a drum-type boiler 1, the continuous blowout expander 2 of which is connected by pipeline 3 to boiler 1 and pipeline | D (4 boil-offs to deaerator 5, and the latter is connected by steam to turbine 6

10 7, which is connected to the fresh steam steam line 8 with the drum boiler 1. The continuous purge expander 2 is provided with a tube bundle 10 located below the water level 9 and inserted into the dissecting of the steam extraction pipeline 6 from the turbine 7. The continuous purge expander 2 is connected to the drain pipe 11 to the drainage 12.

20

Steam installation works as follows.

Steam from boiler 1 through steam pipeline 8 fresh steam is sent to turbine 7. Passing some of the steps in turbine 7, superheated steam gives off some of its energy and, in a state of slight overheating, through pipeline 6, it is directed to pipe pipe. continuous pro30 | duvka from boiler 1 through pipeline 3

Continuous purging is supplied to expander 2, In continuous purging expander 2, purging air boils, steam through the evaporator pipeline 4 is directed to deaerator 5, and water accumulates in continuous purging expander 2 and discharged to drainage drain 11. The steam from the extraction pipeline 6 in the tube bundle 10 transfers heat from the overheating of the blowdown water, as a result of which the heat content of water in the continuous blowout expander 2 increases and some of this water also evaporates, which increases the amount of steam evaporating through the steam pipe 4 to the deaerator 5, and the amount of water leaving the drain pipe 11 to the drain 12 is reduced.

Thus, the amount of water leaving shchy in. the drain from the continuous blower is reduced because the heat of superheating of steam is used to increase the flow rate of the evaporated steam from the continuous blower, which reduces the heat loss from the blower and thereby increases the efficiency of the thermal power plant power generation.

Claims (1)

1. A worker has a thermal scheme of a combined-cycle gas turbine unit PGU-200 deployed. Teploenergoproekt, Rostov branch, 1971, drawing No. 50-29-6862.