RU2566251C1 - Heating method of delivery water at thermal power plant - Google Patents

Abstract

FIELD: power industry.

SUBSTANCE: method involves condensation of turbine waste steam in a condenser. The main condensate of the turbine is heated in low pressure heaters by steam of regenerative extractions; delivery water is heated in system water heaters by steam of heating extractions of the turbine. A make-up water storage tank is connected to a vacuum deaerator of make-up water of the heat network; the main condensate of the turbine after the first low pressure heater in the condensate flow and before supply to the second low pressure heater in the condensate flow is cooled in a surface cooler by initial water before it is supplied to the vacuum deaerator of make-up water of the heat network. The whole flow of delivery water before system water heaters is additionally heated in the condenser of the heat pump plant.

EFFECT: improving reliability and economy of the thermal power plant due to effective use of heat of the heated circulating water for heating of delivery water, the result of which is additional generation of electric power at heat consumption.

2 dwg

Description

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

A known method of operation of a thermal power plant, which consists in the fact that the entire flow of reverse network water returned from consumers is sequentially heated in the lower and upper network heaters, and then sent to consumers. Exhaust steam is cooled by circulating water, which is used as a source of low potential heat for the evaporator of a heat pump installation. The entire flow of network water after the lower network heater is additionally heated in the condenser of the heat pump installation, and then sent to the upper network heater [RU 2269656 C2, F01K 17/02, 02/10/2006].

A known method of operation of a thermal power plant, in which the entire return flow of network water returned from consumers, is successively heated by steam of sampling in the lower network heater and in the upper network heater, and then sent to consumers. Exhaust steam is cooled by circulating water, which is used as a source of low potential heat for the evaporator of a heat pump unit [SU 1590569 A1, F01K 17/02, 09/07/1990].

The closest in technical essence and the achieved result to the claimed one is the method of operation of a thermal power plant, in which the steam is generated in the boiler, fed to a turbine, the steam spent in the turbine is condensed in the condenser, the formed main condensate of the turbine is heated in regenerative heaters with steam of regenerative selections , the mains water is heated in the network heaters by the steam of the turbine heating taps, the leaks of the mains water in the heating system are made up with make-up water, which is prepared in a vacuum heating water make-up deaerator, for which feed water is supplied to it, a make-up water storage tank, main turbine condensate after the first low-pressure heater condensate downstream and the low pressure heater cooled in a surface cooler with the source water before it is fed into the vacuum deaerator of makeup water of the heating system [RU 2430243 C1, F01K 17/02, 09/27/2011]. This analogue is adopted as a prototype.

The disadvantages of analogues and prototype are the loss of heat of the heated circulating water, which leads to a decrease in the reliability and efficiency of the thermal power plant.

The objective of the invention is to increase the reliability and efficiency of a thermal power plant.

The technical result is the additional generation of electric energy by heat consumption while providing additional heating of the entire flow of the supply network water in the condenser of the heat pump installation.

The problem is solved, and the technical result is achieved in a method of heating mains water at a thermal power plant, including generating hot steam in a boiler and feeding it to a turbine, while steam generated in the turbine is condensed in a condenser, the resulting main condensate of the turbine is heated in low pressure heaters with steam regenerative extraction, network water is heated in the network heaters by steam of the turbine heating extraction, leakage of network water in the heating system is made up by make-up water, which is prepared They are installed in the vacuum deaerator of the heating system’s make-up water, for which source water is supplied to it, while the charging tank of the heating water and the main condensate of the turbine are connected to the vacuum deaerator of the heating system’s water after the first condensate of the low pressure heater and before the second condensate is supplied the low-pressure heater is cooled in the surface cooler with the source water before it is supplied to the heating system’s make-up water deaerator, characterized in that the entire flow of network water in front of the set Vym heaters further warmed in the condenser of the heat pump installation.

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

The invention is illustrated by drawings.

In FIG. 1 is a schematic diagram of a thermal power plant explaining the proposed method; FIG. 2 shows a diagram of the heat balance in the lower network heater.

The station contains a cogeneration turbine 1, a condenser 2 of which is connected by a pipeline 3 of the main condensate of the turbine 1 to a feed water deaerator 4, low-pressure heaters 5 included in the pipeline 3 of the main condensate, connected to regenerative steam extraction. The network water pipe 6 includes a lower network heater 7, an upper network heater 8, which are connected to the lower and upper heating taps of the steam of the turbine 1, and a condenser 9 of the heat pump installation. The evaporator 10 of the heat pump installation is connected to the pipe 11 of the heated circulating water, the turbine condenser 2. A vacuum deaerator 12 of the heating water feed system with a storage tank 13 is connected to the network water pipe 6. The main condensate pipe of the turbine 1 is connected to the pipe 3 of the main condensate of the turbine 1 between the first and second low-temperature heaters pressure 5 included surface cooler 15, included in the cooling medium in the pipe 16 of the source water in front of the vacuum deaerator 12 of the make-up water of the heating system.

The method of work consists of the following operations.

The steam generated in the boiler is sent to the heating turbine 1. The exhaust steam of the turbine 1 is condensed in the condenser 2. Then the main condensate of the turbine 1 is fed into the feed water deaerator 4 through the main condensate pipe 3, while the main condensate of the turbine is heated before the feed water deaerator 4 in low heaters pressure 5, which are included in the main condensate pipe 3 between the condensate pump 14 and the feed water deaerator 4. The entire flow of return network water returned from consumers through the network water pipe 6 is successively heated in the condenser 9 of the heat pump installation, the lower network heater 7 and the upper network heater 8, and then the network water pipe 6 is sent to the consumers in the condenser 9 of the heat pump installation, heating the network water carried out in the condenser with the heat removed in the evaporator 10 from the heated circulating water from the pipe 11. The source water is heated to the technologically necessary temperature on top ostnom cooler 15, condensate primary turbine 1 before being introduced into the vacuum deaerator 9 makeup water heating system. Deaerated water is stored in the storage tank 13 of the make-up water, after which it is supplied to the mains pipe 6 before the condenser 9 of the heat pump installation.

An example of a specific implementation of the method.

To implement the method, the principal thermal scheme of the power plant based on the PT-135 / 165-130 turbine unit was selected. The steam generated in the boiler, with a pressure of 13 MPa, is sent to the heating turbine 1 (PT-135 / 165-130). The exhaust steam of the turbine is condensed in the condenser 2 (K2-6000). Then the main condensate of the turbine is fed through the main condensate pipe 3 to the feed water deaerator 4 (DP-1000/120), while the main condensate of the turbine is heated before the feed water deaerator 4 in low pressure heaters 5, which are included in the main condensate pipe 3 between the condensate pumps 14 (KSV-320-160) and deaerator 4 of feed water. The entire return network water stream returned from consumers through the network water pipe 6 is successively heated in the condenser 9 of the heat pump unit, the lower network heater 7 (PSG-2300-3-8) and the upper network heater 8 (PSG-2300-3-8) and then they send the mains water pipeline 6 to consumers. In the condenser 9 of the heat pump installation, the mains water is heated in the condenser with the heat removed in the evaporator 10 from the heated circulating water from the pipeline 11. The heat pump installation will provide heating of the entire flow network water, before being fed to the lower network heater An increase in temperature (enthalpy of the return network water h _os ) will lead to a reduction in the heating steam D ₇ by the lower network heater 7. This can be seen from formula 1 and FIG. 2 heat balances in the bottom network heater.

where G _St - consumption of network water,

h _OS , h _ns - the enthalpy of water before being fed to the lower network heater and after heating in the lower network heater, respectively,

h ₇ , h _7n ^_ enthalpy of heating steam and enthalpy of condensate of heating steam,

η _in - the efficiency of the lower network heater.

Additional generation of electric energy ΔN will be ensured by reducing the flow of steam to the lower network heater 7 by ΔD, this can be seen from formula 2.

where ΔD is the change in steam consumption in the lower network heater,

h ₇ , h _k - enthalpy of heating steam and enthalpy of steam in the turbine condenser, respectively,

η _oi is the efficiency of the turbine compartment.

The performed calculations showed that the implementation of the proposed method on the basis of the PT-135 / 165-130 turbine unit will provide additional generation of electric energy in the amount of 0.6 MW, taking into account the consumption of electric energy by the heat pump installation.

Thus, the proposed solution allows to increase the reliability and efficiency of the thermal power plant due to the efficient use of the heat of the heated circulating water for heating the mains water, which results in the additional generation of electric energy for heat consumption.

Claims (1)

A method of heating network water at a thermal power plant, including generating hot steam in a boiler and supplying it to a turbine, wherein the steam exhausted in the turbine is condensed in a condenser, the main condensate of the turbine formed is heated in regenerative low-pressure heaters by steam of regenerative extraction, the network water is heated in network heaters steam of the turbine’s heating taps, mains water leaks in the heating system are replenished with make-up water, which is prepared in the vacuum deaerator of the heating system’s make-up water, for which it feed water is supplied, while the make-up water tank-accumulator is connected to the vacuum deaerator of the heating water supply system, the main condensate of the turbine after the first downstream condensate in the condensate and before the second condensate is fed in the second downstream condenser, is cooled in the surface cooler with the source water before it is supplied in a vacuum deaerator of makeup water of the heating network, characterized in that the entire flow of network water in front of the network heaters additionally heats the heat in the condenser pumping unit.

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