RU46046U1 - PLANT FOR PRODUCING ELECTRIC AND THERMAL ENERGY - Google Patents

Abstract

The utility model relates to the field of heat power engineering. An installation for generating electric and thermal energy is proposed, including a boiler connected by a steam line to a backpressure turbine connected to an electric generator, and also a low-boiling coolant turbine, for example, butane, connected to an electric generator and connected by pipelines to a low-boiling coolant evaporator and to a low-boiling coolant condenser, and a feed a low-boiling coolant pump, while it additionally contains a heating boiler, and an anti-pressure turbine exhaust s steam pipes connected with district heating boiler and to the evaporator the low boiling point coolant. In addition, an injector may be installed between the low boiling medium feed pump and the low boiling medium evaporator. The claimed solution allows you to eliminate the tight connection between the generation of electricity and heat, as well as at any ambient temperature throughout the year to ensure maximum electricity generation, optimize the operation of turbines, increase their reliability and efficiency.

Description

The utility model relates to the field of heat power engineering.

Known geothermal power plant with a combined cycle containing a production well communicated by transporting pipelines, a separator, a turbogenerator and a separator injection well connected by a separator pipeline to a separator, the heater and an evaporator of a binary cycle for generating electricity including an additional turbogenerator, an air condenser and a pump are placed on the separator pipeline reported by pipelines filled with organic coolant in which low drinking heat carriers in order to increase the efficiency of steam turbine TPPs (RU. Utility Model Certificate No. 6205, IPC F 03 G 7/00, published 1998.03.16; O. V. Britvin, O.D. Povarov, E.F. Klochkov, etc. . "Verkhnemutnovskaya geothermal station. Thermal engineering, 1999, No. 2, C.2-8).

A disadvantage of the known power plant is the complexity and high cost of its use for the purpose of heating, which is associated with the need to introduce an additional water circuit into the circuit.

A heat power installation is known that uses low-boiling coolants to replace the condensation part of steam turbines when the ambient temperature decreases in winter, including a boiler connected by a steam line to a backpressure turbine connected to an electric generator, a low-boiling coolant turbine connected to an electric generator, and a low-boiling coolant condenser evaporator and a low boiling medium feed pump. (A.I. Andryushchenko

“Fundamentals of thermodynamics of cycles of heat power plants”, M., Higher School, 1985, p.319).

By the combination of features, this known installation is the closest to the claimed and is taken as a prototype.

A disadvantage of the known installation adopted for the prototype is that fuel economy is achieved only in the winter period, since during the year the temperature of the circulating water and the surrounding air, as well as their ratio, vary significantly. When using this installation for heating, the efficiency of using a low-boiling coolant is significantly reduced.

The claimed solution allows you to eliminate the tight connection between the generation of electricity and heat, as well as at any ambient temperature throughout the year to ensure maximum electricity generation, optimize the operation of the turbines, increase their reliability and efficiency.

A plant for generating electric and thermal energy is proposed, including a boiler connected by a steam line to a backpressure turbine connected to an electric generator, and a low-boiling coolant turbine, for example, butane, connected to an electric generator and connected by pipelines to a low-boiling coolant evaporator and to a low-boiling coolant condenser, and a feed pump low-boiling coolant, while it additionally contains a heating boiler, and exhaust backpressure turbines It is connected by steam pipelines to a heating boiler and to an evaporator of a low-boiling coolant. In addition, an injector may be installed between the low boiling medium feed pump and the low boiling medium evaporator.

The utility model is illustrated in the drawing, where in Fig.1 shows a diagram of the proposed installation, in Fig.2 - one of the variants of the circuit.

The installation for generating electric and thermal energy includes a steam boiler 1 connected by a steam line to a backpressure turbine 2 connected to an electric generator 3, and also a low-boiling coolant turbine 4, for example, butane connected to an electric generator 5 and connected by pipelines to a low-boiling medium coolant evaporator with a low-boiling coolant condenser 7, and a feed pump of a low-boiling coolant 8. The installation further comprises a heating boiler 9, while the exhaust is counter-pressure nd turbine 2 is connected with the district heating boiler steam pipes 9 and the evaporator 6. The low-boiling coolant between the coolant supply pump 8 and a low-boiling low-boiling coolant evaporator 6 may be installed injector 10.

Installation works as follows. In winter, when the ambient temperature is sufficiently low, all the steam coming from the boiler 1 into the backpressure turbine 2, after leaving the turbine, is fed to the heating boiler 9. During this period, the steam does not enter the evaporator 6 and the low-boiling coolant turbine 4 does not work and the electric generator 3 is driven only by a steam turbine 2. With increasing ambient temperature, excess steam appears that enters the low-boiling-medium evaporator b and the low-boiling-water turbine starts to work Itel 4. Steam of low-boiling coolant passing through the turbine 4, enters the condenser 7 and after condensation is fed by the feed pump 8 back to the evaporator 6.

When the installation is operated using the injector 10, part of the condensate of the low-boiling coolant is supplied to the injector 10, where it is mixed with the steam of the low-boiling coolant and fed to the evaporator 6. In this scheme, the injector 10 acts as a high-pressure pump,

and a mixing heater, resulting in an additional increase in the efficiency of the installation.

The application of the proposed installation together with the R-6 steam turbine with parameters of sharp steam of 40 Ata and 450 ° C for the climatic conditions of the European territory of Russia allows to double the total electricity generation. Moreover, the lower the initial parameters of the steam, the greater the increase in electricity generation.

Claims (2)

1. Installation for generating electric and thermal energy, including a boiler connected by a steam line to a backpressure turbine connected to an electric generator, and a low-boiling coolant turbine, for example, butane, connected to an electric generator and connected by pipelines to a low-boiling coolant evaporator and to a low-boiling coolant condenser, and a low-boiling coolant feed pump, characterized in that it further comprises a heating boiler, while the backpressure exhaust Coy turbine steam pipes connected with the district heating boiler and to the evaporator the low boiling point coolant. 2. Installation according to claim 1, characterized in that an injector is installed between the low-boiling coolant feed pump and the low-boiling coolant evaporator.