RU144307U1 - THERMAL POWER PLANT - Google Patents

Abstract

1. Thermal power plant containing a water supply, a boiler room with a chimney and a turbogenerator for converting steam energy into electrical energy, the electrical output of which is connected to the first inputs of the distribution station, characterized in that it further comprises a hydrogen generator, a methanol generator and a diesel generator connected in series a generator, the electrical output of which is connected to the second input of the distribution station, and the electrical output of the turbogenerator is connected to the first input of the generator a hydrogen torus, the second input of which is connected to a water supply source, and the second input of a methanol generator - to the boiler chimney. 2. Thermal power plant according to claim 1, characterized in that the hydrogen generator is made in the form of an electrolytic catalyst for water. Thermal power plant according to claim 1, characterized in that the methanol generator is made in the form of a chemical rector of a mixture of hydrogen and carbon dioxide.

Description

The utility model relates to the field of energy, specifically to a thermal power plant for the production of electric energy.

Known thermal power plants (TPP) for the production of electrical energy [1-2].

The closest to the purpose and technical essence of the utility model is a thermal power station [2], which contains a water supply, a boiler room with a chimney and a turbogenerator for converting steam energy into electrical energy, the electrical output of which is connected to the inputs of the distribution station.

A disadvantage of the known production line is the lack of environmental friendliness associated with the emission of flue gases into the atmosphere.

The objective and technical result of the utility model is to increase the environmental friendliness of electric energy production.

The task and technical result are achieved in that a thermal power plant comprising a water supply source, a boiler room with a chimney and a turbogenerator for converting steam energy into electrical energy, the electrical output of which is connected to the first inputs of the distribution station, according to a utility model, it additionally contains a hydrogen generator in series , a methanol generator and a diesel generator, the electrical output of which is connected to the second input of the distribution station, and The electric output of the turbogenerator is connected to the first input of the hydrogen generator, the second input of which is connected to the water supply, and the second input of the methanol generator to the chimney of the boiler room.

In this case, the hydrogen generator is made in the form of an electrolytic catalyst for water. The methanol generator is made in the form of a chemical rector of a mixture of hydrogen and carbon dioxide.

The additional introduction of series-connected hydrogen generator, methanol generator and diesel generator, the electrical output of which is connected to the second input of the distribution station, the electrical output of the turbogenerator is connected to the first input of the hydrogen generator, the second input of which is connected to the water supply, and the second input of the methanol generator with a chimney of a boiler room allows to reduce emissions of flue gases of thermal power plants and at the same time increase the output energy of the technological line due to processing ki flue gases and water vapor into electrical energy.

The figure shows a functional diagram of a thermal power plant for the production of electrical energy.

The thermal power plant (TPP) 1 contains a boiler room 2 with a chimney 3 and a turbogenerator 4 connected in series and technologically connected for the production of electrical energy. The electric output of the turbogenerator 4 is connected to the first input of the distribution station 5 and the first input of the hydrogen generator 6. The second input of the hydrogen generator 6 is connected through the supply in water to the well 7 (water supply source) and the input of the boiler room 2. The output of the hydrogen generator 6 is connected to the first input of the methanol generator 8, the second input of which is connected to the output of the chimney 3 of TPP 1. The output of the methanol generator 8 connected through a diesel generator 9 with the second input of the distribution station 5.

Thermal power plant 1 for the production of electric energy is as follows.

The feed water from the well 7 enters the inlet of the boiler room 2 and the hydrogen generator 5. In boiler room 2, the water is heated by burning hydrocarbon fuels, for example: gas, coal and / or firewood. During rotation of the turbine of the turbogenerator 4. The kinetic energy of rotation of the turbine is converted in the turbogenerator 4 into electrical energy. Electric energy from the turbogenerator 4 is supplied to the first input of the distribution station 5 and to the first input of the hydrogen generator 6. Hydrogen generator 6 by electrolytic catalysis decomposes the water of well 7 into hydrogen and oxygen. Oxygen is emitted into the atmosphere to improve the environment, and hydrogen is supplied to the first input of methanol generator 8, the second input of which receives flue gases from the chimney 3 of TPP 1. Generator 8 synthesizes hydrogen and flue gases into a methanol combustible gas. Methanol from the output of the generator 8 is supplied as fuel to the diesel generator 9. Electric energy from the diesel generator is supplied to the second input of the distribution station 5, the outputs of which are connected to consumers of electric energy (not shown in the figure).

The utility model is developed at the technical proposal level.

Information sources:

1. RU 2011124134, IPC: H02K 47/00, 2012.

2. Reference for the design of power supply. Under the general editorship of Yu.N. Tishchenko, N.S. Movsesova, Yu.G. Barbara. M :, Energoatomizdat. 1990.571 s.

Claims (3)

1. Thermal power plant containing a water supply, a boiler room with a chimney and a turbogenerator for converting steam energy into electrical energy, the electrical output of which is connected to the first inputs of the distribution station, characterized in that it further comprises a hydrogen generator, a methanol generator and a diesel generator connected in series a generator, the electrical output of which is connected to the second input of the distribution station, and the electrical output of the turbogenerator is connected to the first input of the generator a hydrogen torus, the second input of which is connected to a water supply source, and the second input of a methanol generator - to the boiler chimney. 2. Thermal power plant according to claim 1, characterized in that the hydrogen generator is made in the form of an electrolytic water catalyst. 3. Thermal power station according to claim 1, characterized in that the methanol generator is made in the form of a chemical rector of a mixture of hydrogen and carbon dioxide.