RU2461721C2 - Operating method of thermal power plant - Google Patents

Abstract

FIELD: power industry.

SUBSTANCE: in operating method of thermal power plant, as per which liquid fuel is heated in surface steam heaters connected to pipeline before boilers, as well as in surface heaters of fuel storage, in evaporator of heat pump unit there cooled is condensate of heating steam of surface steam heaters of liquid fuel, which are connected to pipeline upstream of boilers, and in condenser of heat pump unit there heated is water used as heating agent in surface heaters of fuel storages.

EFFECT: invention allows improving economy and reliability of thermal power plant due to reduction of heat losses with heating steam condensate of surface steam heaters connected to pipeline before boilers, as well as due to replacement of high-potential heating agent, namely steam with pressure of 0,8-1,3 MPa, in surface heaters of fuel storage with more low-potential heating agent.

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Description

The invention relates to the field of power engineering and can be used in thermal power plants.

Analogs are known - methods of operating a thermal power plant, in which liquid fuel is heated in surface steam heaters included in the fuel line in front of boilers, as well as in surface heaters of the fuel storage (see Bazhenov M.I., Bogorodsky A.S., Sazanov B.V. ., Yurenev VN Industrial Thermal Power Plants. - 2nd ed., Revised. - M .: Energia, 1979, Fig. 10-10 and the description thereto on pp. 1984-187, as well as the text on p. 66). This analogue is adopted as a prototype.

The disadvantages of the prototype and analogues are the reduced efficiency and reliability of the thermal power plant due to heat losses with condensate of the heating steam of surface steam heaters included in the fuel line in front of the boilers, as well as the uneconomical use of a high potential medium, for example, steam with a pressure of 0.8-1.3 MPa , as a heating agent in surface fuel tank heaters.

The technical result achieved by the present invention is to increase the efficiency and reliability of a thermal power plant by reducing heat loss with condensing heating steam of surface steam heaters included in the fuel line in front of the boilers, as well as by replacing a high-potential heating agent, in particular steam with a pressure of 0, 8-1.3 MPa, in surface fuel tank heaters with a lower-grade heating agent.

To achieve this result, a method is proposed for operating a thermal power plant, in which liquid fuel is heated in surface steam heaters included in the fuel line in front of boilers, as well as in surface heaters of the fuel storage.

The peculiarity is that in the evaporator of the heat pump installation, the condensate of the heating steam of surface steam heaters of liquid fuel included in the fuel line in front of the boilers is cooled, and the water used as the heating agent in the surface heaters of the fuel storage tank is heated in the condenser of the heat pump installation.

A new way of operating a thermal power plant allows to increase the cost-effectiveness and reliability of a thermal power plant due to the efficient use of condensate heat from heating steam of surface steam heaters of liquid fuel included in the fuel line in front of boilers, as well as by replacing high potential steam in the process cycle of heating liquid fuel in surface heaters fuel storages less valuable from an energy point of view heating agent.

Next, we consider the information confirming the possibility of carrying out the invention with obtaining the desired technical result.

The drawing shows a schematic diagram of a thermal power plant, explaining the proposed method.

The station contains boilers 1, surface steam heaters 2 of liquid fuel, included in the fuel line 3 in front of the boilers, connected to heaters 2, heating steam pipe 4 and heating steam condensate pipe 5, a fuel storage 6 with surface storage tank heaters 7, connected via a heating medium to the supply pipe 8 water with a circulation pump 13. The station is equipped with a heat pump installation consisting of a condenser 9, a throttling device 10, an evaporator 11 and a compressor 12.

Consider an example of the implementation of the claimed method of operation of a thermal power plant.

Liquid fuel from the fuel storage 6 is transported via a fuel pipe 3 to surface steam heaters 2, to which a heating steam pipe 4 and a heating steam condensate pipe 5 are connected. The liquid fuel heated in the heaters 2 is sent to the boilers 1.

Liquid fuel is stored in the fuel storage 6, where it is heated in the surface heaters 7 of the fuel storage, the heating agent to which is fed through the water supply pipe 8.

The heating of the heating agent in front of the surface heaters 7 of the fuel storage is carried out by a heat pump installation.

In a heat pump installation, heating of the heating agent — water for surface heaters 7 of the fuel storage is carried out in the condenser 9 with heat removed by the evaporator 11 from the condensation of the heating steam from the pipeline 5. According to the heated medium, the condenser 9 of the heat pump installation is included in the water supply pipe 8 in front of the surface heaters 7 of the fuel storage.

Thus, the proposed method of operation of a thermal power plant allows to increase the efficiency and reliability of its operation by replacing the high-potential heating agent in the surface heaters of the fuel storage with a lower-potential heating agent - condensate of the heating steam of surface steam heaters included in the fuel line in front of the boilers.

Claims (1)

The method of operation of a thermal power plant in which liquid fuel is heated in surface steam heaters included in the fuel line in front of the boilers, as well as in the surface heaters of the fuel storage, characterized in that the condensate of the heating steam of surface steam heaters of liquid fuel included in the fuel pipe is cooled in the evaporator of the heat pump installation in front of the boilers, and in the condenser of the heat pump installation, the water used as a heating agent in the surface is heated spruce fuel storage.

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