RU91379U1 - HEAT ELECTRIC STATION - Google Patents

Abstract

The utility model relates to the field of power engineering and can be used at thermal power plants. The goal is to increase the efficiency of the station by increasing the share of electricity generated on the basis of heat consumption, and reducing the underheating in regenerative heaters, increasing the heat capacity of the station, increasing the share of electricity generated on the basis of regenerative selection. The thermal power station, including a steam boiler, a heating turbine containing unregulated taps and regulated heating taps, a regeneration system, network heaters connected to cogeneration taps of the turbine, is additionally equipped with desuperheaters connected to unregulated and heating taps through the heating medium and connected to the heated medium with mains water pipeline.

Description

The utility model relates to the field of thermal energy and is intended for use in thermal power plants.

Known thermal power plant (Benenson EI, Heat steam turbines. - M .: Energoatomizdat, 1986, p.140-142), including industrial-heating turbine containing uncontrolled and adjustable selections, industrial and heating, a group of high pressure heaters , a deaerator and a group of low-pressure heaters connected to the extraction of an industrial heating turbine, connected by feed water pipelines and forming a regeneration system. Network heaters are connected to cogeneration turbine extraction, connected by network water pipelines to the regeneration system and connected by condensate pipelines.

Known thermal power plant (Ryzhkin V.Ya. Thermal power plants.- M .: Energoatomizdat, 1987, pp. 64-65, Fig. 5.15), including a steam boiler, a turbine connected to a steam boiler with a steam pipe, equipped with an intermediate superheater, system regeneration, including regenerative heaters, an external desuperheater connected to uncontrolled sampling in a heating medium, and in feedwater heated to pipelines.

The disadvantages of the known thermal power plants are: increased underheating in the heaters of the regeneration system, which leads to low efficiency of the turbine withdrawals, the limitation of the maximum temperature of the network water, due to the maximum possible pressure of steam extraction to the upper network heater of the turbine.

Closest to the claimed one is a thermal power plant (Thermal and nuclear power plants: Handbook / Under the general editorship of Corresponding Member of the Russian Academy of Sciences A.V. Klimenko, V.M.Zorin. - 3rd ed., Revised and add. - M .: MEI Publishing House, 2003 - 645 pp., ill. - (Heat and Power Engineering and Heat Engineering; Kn.3), p.340), including a heating turbine containing unregulated taps and adjustable heating taps, a group of high pressure heaters equipped with built-in desuperheaters and coolers for uncontrolled drainage supply feeding the heaters, d an aerator and a group of low pressure heaters connected to the extraction of a heating turbine, connected by piping of feed water and forming a regeneration system. Network heaters are connected to the cogeneration turbine extraction and connected by piping network water to the regeneration system and connected by condensate pipelines.

The disadvantages of this thermal power plant are: increased underheating in the low pressure heaters of the regeneration system, which leads to low efficiency of the turbine withdrawals, the limitation of the maximum temperature of the network water, due to the maximum possible pressure of the steam withdrawal to the upper network turbine heater.

The technical result of the claimed model is to lower the pressure of the steam going to the network heaters, thereby increasing the share of generation for heat consumption, reducing the underheating in regenerative heaters, increasing the share of electricity generated on the basis of regenerative selections.

The result is achieved by the fact that a thermal power plant containing a heating turbine, including unregulated taps and regulated heating taps, a group of high-pressure heaters, a deaerator and a group of low-pressure heaters connected to the selection of a heating turbine, connected by piping of feed water and forming a regeneration system, while network heaters are connected to cogeneration turbine extraction, connected by network water pipelines to the regeneration system and connected condensate pipelines, characterized in that the thermal power station is equipped with desuperheaters connected in a heating medium to unregulated and heat recovery turbines, and in a heated medium they are connected to the mains water pipeline.

In FIG. shows a diagram of a thermal power plant, where 1 is a steam boiler; 2 - heating turbine; 3 - network heaters; 4 - consumer; 5 - electric generator; 6 - regenerative turbine heaters; 7 - capacitor; 8 - desuperheaters.

The thermal power station contains a steam boiler 1, a heating turbine 2 connected by a steam line to a steam boiler 1, which contains unregulated taps and adjustable heating taps, regenerative turbine heaters 6, connected by a steam line to the turbine taps feeding the heaters, connected by feed water pipes and form a regeneration system, containing desuperheaters. The network heaters 3 are connected to the heat recovery turbine and connected by pipelines of the network water to the regeneration system, connected by condensate pipelines. On the network water pipe after the network heaters 3, a flow regulator 9 is installed.

The thermal power station operates as follows: the steam from the boiler 1 enters the turbine 2, where, expanding in the stages of the cylinders, it transforms the potential thermal energy of the steam into the mechanical energy of rotation of the rotor of the turbine 2. The rotating rotor converts mechanical energy into electrical energy in the generator 5. Part of the steam goes to regenerative water heating, and part of the steam to heat water in the network heaters 3. The remaining steam after the turbine 2 is condensed in the condenser 7. The water formed by the condensate pump supplied to the regenerative circuit 6. The network water heated in the network heaters 3 is divided into two streams by the flow regulator 9. The first stream is sent to desuperheaters 8, where, reducing the temperature of the steam, it is heated, and after heating, mixed with the second stream, is sent to the consumer 4 .

A comparative analysis of the circuits was carried out: a circuit containing a group of high-pressure heaters equipped with built-in desuperheaters and drainage coolers, a deaerator, a group of low-pressure heaters, network heaters and a circuit containing regenerative heaters, network heaters, a flow controller and desuperheaters connected via a heated medium to mains water pipeline.

As a result of the analysis, it was found that the use of a circuit containing regenerative heaters, network heaters, a flow regulator and desuperheaters connected through a heated medium with a network of water pipelines allows peaks of electric load to pass during periods of high heat consumption due to an increase in the share of electricity generated by steam regenerative selection, allows you to replace part of the thermal energy produced by uneconomical boilers, reduces underheating in regenerative heating Atelier.

Thus, the proposed utility model allows to increase the amount of electricity supplied in the presence of heat load by reducing the pressure of the cogeneration turbine and increasing the regenerative selection of the cogeneration turbine, by reducing the passage of steam into the condenser to increase the efficiency of the station.

Claims (1)

A thermal power station containing a heating turbine, including unregulated taps and regulated cogeneration taps, a group of high pressure heaters, a deaerator and a group of low pressure heaters connected to the taps of a heating turbine connected by piping of feed water and forming a regeneration system, while the network heaters are connected to the heating turbine extraction, connected by network water pipelines to a regeneration system and connected by condensate pipelines, characterized in that the thermal power station is equipped with desuperheaters, connected in a heating medium to unregulated and heating selections, and connected to the mains water pipeline in a heated medium.