RU140400U1 - HEAT ELECTRIC STATION - Google Patents

Abstract

1. Thermal power plant, including a series-connected steam turbine, a steam turbine condenser and a condensate pump of a steam turbine condenser, as well as a main electric generator connected to a steam turbine, characterized in that an organic cycle closed loop heat engine is introduced into it Rankin, while the closed circuit of the circulation of the heat engine is made in the form of a circuit with a low-boiling working fluid containing a turboexpander with electric a generator, a water-cooled condenser and a condensate pump, the output of the condensate pump being connected through a heated medium to the inlet of a steam turbine condenser, the output of which is connected through a heated medium to the inlet of a turboexpander, forming a closed cooling circuit. 2. Thermal power station according to claim 1, characterized in that as a low-boiling working fluid using liquefied carbon dioxide CO.

Description

The utility model relates to the field of energy and can be used at thermal power plants (TPPs) for utilization of low-grade waste heat in condensers of steam turbines of TPPs in winter.

The prototype is a thermal power plant containing a supply and return piping of network water, a steam turbine with heating steam extraction and a condenser, to which pressure and drain pipelines of circulation water are connected, network heaters connected through a heated medium between the supply and return pipelines of network water and connected through heating medium to heating taps, a heat pump installation, the evaporator of which is connected via heating medium to a drainage pipe of circulating water, while m the condenser of the heat pump installation for the heated medium is included in the supply pipe of the network water after the network heaters (patent RU No. 2268372, IPC F01K 17/02, 01/20/2006).

The main disadvantage of the prototype is the relatively low efficiency of TPPs for generating electric energy due to the lack of complete utilization of the latent heat of vaporization in the steam turbine condenser for additional power generation due to the presence of a secondary circuit (heat pump installation). In addition, the disadvantage is the low resource and reliability of the condenser of the steam turbine due to the use of technical (circulating) water, which pollutes the condenser of the steam turbine. Due to the increased thermal emissions of the circulating water into the cooling pond in the winter, its ecosystem is disturbed.

The objective of the utility model is to increase the efficiency of TPPs due to the full use of low-grade waste heat for additional generation of electric energy, increase the resource and reliability of the steam turbine condenser, and reduce thermal emissions into the environment.

The technical result is achieved by the fact that a heat engine with a closed circulation circuit is introduced into a thermal power plant including a steam turbine condenser, a steam turbine condenser and a steam turbine condenser pump, as well as a main electric generator connected to a steam turbine, according to the present utility model, operating on the organic Rankine cycle, while the closed circuit of the circulation of the heat engine is made in the form of a circuit with a low boiling fluid, containing They are connected in series by a turboexpander with an electric generator, a water-cooled condenser and a condensate pump, the condensate pump output being connected via a heated medium to the steam turbine condenser inlet, the output of which is connected via a heated medium to the turboexpander inlet, forming a closed cooling circuit.

As a low-boiling working fluid, liquefied carbon dioxide CO _{2 is used} .

Thus, the technical result is achieved due to the complete utilization of waste low-potential heat (latent heat of vaporization), which is carried out by heating, in the condenser of a steam turbine, low-boiling working fluid (liquefied carbon dioxide CO ₂ ), a closed-circuit heat engine operating in an organic cycle Rankine.

The essence of the utility model is illustrated by the drawing, which shows the proposed thermal power plant having a heat engine with water cooling.

In the drawing, the numbers indicate:

1 - steam turbine,

2 - condenser of a steam turbine,

3 - condensate pump condenser of a steam turbine,

4 - the main generator

5 - heat engine with a closed circuit,

6 - turboexpander,

7 - electric generator,

8 - condenser water cooling

9 - condensate pump.

The thermal power station includes a steam turbine 1 connected in series, a steam turbine condenser 2 and a steam turbine condenser pump 3, as well as a main electric generator 4 connected to the steam turbine 1.

The difference of the proposed thermal power plant is that it introduced a heat engine 5 with a closed loop, operating on the organic Rankine cycle.

The closed circuit of the circulation of the heat engine 5 is made in the form of a circuit with a low-boiling working fluid containing a turboexpander 6 connected in series with an electric generator 7, a water cooling condenser 8 and a condensate pump 9, the output of the condensate pump 9 being connected via a heated medium to the input of the condenser 2 of the steam turbine, output which is connected via a heated medium to the inlet of the turboexpander 6, forming a closed cooling circuit.

As a low-boiling working fluid, liquefied carbon dioxide CO _{2 is used} .

The proposed thermal power plant operates as follows.

The steam coming from the steam turbine 1 into the steam space of the condenser 2 condenses on the surface of the condenser tubes, inside which coolant flows (liquefied carbon dioxide CO ₂ ). The power of the steam turbine 1 is transmitted to the main electric generator 4 connected to one shaft.

Steam condensation is accompanied by the release of latent heat of vaporization, which is removed using coolant. The condensate formed by means of a condensate pump 3 of a steam turbine condenser is sent to a regeneration system.

The conversion of waste low-potential thermal energy of the steam 1 spent in the turbine into mechanical and, further, into electrical energy takes place in a closed loop of the heat engine 5 operating according to the organic Rankine cycle. The whole process begins with the compression in the condensate pump 9 of liquefied carbon dioxide CO ₂ , which is sent for heating and evaporation in the condenser 2 of the steam turbine, where the steam spent in the turbine enters 1.

The boiling point of liquefied carbon dioxide CO _{2 is} relatively low (301.2 K at a pressure of 6.9 MPa), therefore, it quickly evaporates in the condenser 2 of the steam turbine and goes into a gaseous state, after which, having the temperature of the superheated gas, it is sent to a turbine expander 6 .

The process is configured in such a way that carbon dioxide CO ₂ does not condense in the turboexpander 6 during the operation of the heat transfer. The power of the turboexpander 6 is transmitted to an electric generator 7 connected to one shaft. At the outlet of the turboexpander 6, carbon dioxide CO ₂ has a temperature of about 290 K with a humidity not exceeding 12%.

Further, its temperature is reduced and liquefied in a condenser 8 of water cooling, cooled by industrial ambient water at a temperature of 278.15 K.

After the condenser 8 of water cooling in a liquefied state, carbon dioxide CO _{2 is} compressed in the condensate pump 9 and sent for heating and evaporation to the condenser 2 of the steam turbine.

The condenser 8 water cooling has a higher heat transfer efficiency compared to air cooling and does not require large areas of the heat exchange surface. In this case, the power consumption for the drive of the circulation pumps of the water-cooled condenser 8 is less than for the drive of the fans of the air-cooled condenser.

Claims (2)

1. Thermal power plant, including a series-connected steam turbine, a steam turbine condenser and a condensate pump of a steam turbine condenser, as well as a main electric generator connected to a steam turbine, characterized in that an organic cycle closed loop heat engine is introduced into it Rankin, while the closed circuit of the circulation of the heat engine is made in the form of a circuit with a low-boiling working fluid containing a turboexpander with electric a generator, a water-cooled condenser and a condensate pump, the output of the condensate pump being connected via a heated medium to the inlet of a steam turbine condenser, the output of which is connected through a heated medium to the input of a turboexpander, forming a closed cooling circuit. 2. Thermal power station according to claim 1, characterized in that as a low-boiling working fluid using liquefied carbon dioxide CO ₂ .

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