SU355467A1 - AIR CONDENSATION INSTALLATION - Google Patents

Description

The invention relates to the operation of power plants and can be applied to power units equipped with air-condensing units.

Known units, such as the Geller system, contain mixing type steam turbine condensers, a circulation pump, a dry cooling tower, and a hydro turbine. The construction of these installations is advisable in the areas of construction of thermal power plants, remote from water basins. However, the known installations have disadvantages. For example, waste heat is not used, the cooling tower has a large cooling surface, in the installation scheme there is no effective deaeration of the circulating water, which reduces the reliability of operation of both the cooling circuit and the steam line of the power unit.

The decrease in the reliability of the dry cooling tower is caused by the rapid wear of the aluminum sections under the action of oxygen and other aggressive gases dissolved in the cooling water, and the operation of the steam pipe by the loading of aluminum oxides. The latter is especially unacceptable in power units operating on supercritical steam parameters.

The aim of the invention is to increase the reliability and efficiency of the installation of the power unit.

In order to achieve this goal, in installations with a series-wise connection of condensers of the mixing type of the main turbine and turbo-drive, for example, a feed pump, a heat exchanger with a sequentially located deaerator and an additional heat exchanger is connected in between the condensers.

The drawing shows the scheme of inclusion of additional heat exchangers in the path

circulating water.

When operating the main turbo-installation and the pipeline, the operation of the air-condensing unit is carried out as follows.

From the main condenser / part of the water enters the condenser 2 of the pipeline 3, and some - into the deaerator 4. Under the condenser 2, the water is heated to a higher temperature than in the condenser 1, using a pump

5 is supplied to a heat exchanger 6 included in the water removal pipe 7.

non-operative low pressure heaters 10 of the main turbine unit 11, i.e., in the wiring path of the power unit.

From the heat exchanger 6 the circulating water through the pipeline also enters the deaerator 4, where both streams are cleaned from dissolved oxygen in them into other gases. From the de-aerator, water is pumped through a circulating pump 12 operated by a hydro turbine 13, in part to a condensate purification device 14 of the steam duct, and the main part to an additional heat exchanger 15 located on the discharge pipe 16. In the heat exchanger 15 there the water gives off a portion of the heat to the cold stream entering the water treatment in unit 17 of the unit and then into the heaters 18 of purified water.

From the heat exchanger 15, the circulating water, partially cooled in the heat exchanger 6 and deaerator 4, enters the dry cooling tower 19, where it is finally cooled by the flow of outside air. Pipeline 20, having done work in a water turbine, supplies water to condensers in which it absorbs heat from the exhaust steam, and the cycle repeats.

Thus, with the help of heat exchanger 5 and deaerator 4, part of the waste heat is returned to the cycle of the thermal power plant. This reduces the costs of steam entering the steam lines from turbine burs, heaters 10 and 18,. the consumption of fresh steam per turbine is reduced at a constant power at the terminals of the generator, fuel is saved.

Subject invention

Air - condensing installation

a power unit containing mixing type capacitors of the main turbine and a turbo drive, for example a feed pump, connected in series with pipelines

supply and removal of water, and water heat exchangers, characterized in that, in order to increase reliability and efficiency in the water removal pipeline, between the capacitors of the turbo drive and the main turbine,

a heat exchanger is turned on with a deaerator in series with it and an additional heat exchanger.