RU2148174C1 - Operating process of thermal power plant - Google Patents

Abstract

FIELD: thermal engineering. SUBSTANCE: delivery water returned from users is heated in heating-system heaters of extraction turbines and in water boilers. Temperature of delivery water supplied to users is maintained at desired level depending on ambient temperature according to heating- system temperature curve. Delivery water leakage is compensated for by makeup water which is specially treated to remove scale deposits according to temperature conditions of water boilers. Delivery water returned from users is divided into two parallel flows of which one is passed through heating-system heaters under base conditions and other one is heated in water boilers under peak-demand conditions; thus heated water flows are mixed up prior to being supplied to users; temperature of total delivery-water flow is controlled according to lower temperature curve of heating system; anti-scale treatment of makeup water is conducted using simplified process scheme. EFFECT: improved reliability and economic efficiency of thermal power plant. 1 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 is an analogue in which the network water supplied from consumers is successively heated in network heaters of heating turbines and in hot water boilers, the temperature of the network water supplied to consumers is maintained depending on the outdoor temperature according to the temperature schedule of the heating system (see book Heat Supply: A Textbook for University Students / V.E. Kozin et al. - M.: Higher School, 1980, Fig. XI.1, pp. 297-299, 103-120). Leaks of network water in the heating system are compensated by make-up water (ibid., The penultimate paragraph on p. 299), which is subjected to anti-scale treatment depending on the maximum heating temperature of the network water, i.e. in accordance with the temperature regime of boilers (ibid., 4th paragraph on p. 311). This analogue is adopted as a prototype of the invention.

The disadvantages of the analogues and the prototype are the reduced reliability, efficiency and environmental friendliness of the thermal power plant during the sequential heating of the mains water in the network heaters of cogeneration turbines and in hot water boilers. Water is heated in the calculated temperature mode at a standard temperature schedule of the heating system of 150/70 ^o C from 70 to 120 ^o C is carried out in network heaters and up to 150 ^o C in hot water boilers. The operation of hot water boilers when heating water in them to 140-150 ^o C is unreliable due to intensive scale formation in the heating surfaces. To reduce the rate of scale formation in hot water boilers, expensive ion-exchange water softening is used, which feeds the heating system, which leads to a decrease in the station operation efficiency and the appearance of a large amount of highly mineralized wastewater from the regeneration of ion-exchange filters. At many thermal power plants, due to the inability to dispose of wastewater, deep water softening is not applicable for environmental and economic reasons, therefore, to prevent scale formation in boilers, the temperature of the outlet water is forced to be limited to 120-130 ^o C. Restriction of the temperature of the network water behind the hot water boilers leads to underutilization of their heat capacity due to a decrease in the temperature difference at the inlet and outlet of the boilers, which also leads to a decrease in the efficiency of the station.

 The technical result achieved by the present invention is to increase the reliability, efficiency and environmental friendliness of the thermal power plant by making better use of the thermal power of network heaters and hot water boilers, lowering the temperature level of hot water boilers and eliminating the need for anti-scale treatment of makeup water associated with the formation of highly mineralized wastewater.

 To achieve this result, a method is proposed for operating a thermal power plant, in which the network water supplied from consumers is heated in network heaters of heating turbines and in hot water boilers, the temperature of the network water supplied to consumers is maintained depending on the outdoor temperature according to the temperature schedule of the heating network, and network leakage water is compensated by make-up water, which is subjected to anti-scale treatment in accordance with the temperature regime of operation of boilers . A feature of the proposed method is that the network water coming from consumers is divided into two parallel flows, one of which is heated in the basic mode in network heaters, and the other is in peak mode in hot water boilers, network water flows heated in network heaters and hot water boilers before serving consumers mix, regulate the temperature of the total flow of network water supplied to consumers, produce at a lower temperature schedule of the heating system, and anti-scale treatment under feed water is produced using simplified technology.

 These distinctive features make it possible to provide the required heating of parallel flows of network water in network heaters and boilers depending on the outdoor temperature. Separation of the network water coming from consumers into two parallel flows, heated in network heaters and hot water boilers, makes it possible to more fully use the thermal power of hot water boilers by increasing the temperature difference at their inlet and outlet. Regulation of the temperature of the total flow of network water directed to consumers, according to the reduced temperature schedule of the heating system, can significantly reduce the rate of scale formation in boilers without the use of expensive ion-exchange softening technology, accompanied by the formation of highly mineralized wastewater, and make better use of the heating capacity of boilers by increasing the temperature delta at their input and output.

 Thus, the desired technical result is achieved, which consists in increasing the reliability, efficiency and environmental friendliness of the operation of a thermal power plant.

 The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources, and the identification of sources containing information about analogues of the claimed invention, allowed to establish that the applicant did not find an analogue characterized by features identical to all the essential features of the claimed invention. The definition from the list of identified analogues of the prototype as the closest in the set of essential features of the analogue made it possible to identify a set of essential distinguishing features in relation to the achieved technical result set forth in the claims. Therefore, the claimed invention meets the condition of "novelty."

 To verify the compliance of the claimed invention with the condition "inventive step", the applicant conducted an additional search for known solutions in order to identify features that match the distinctive features of the claimed method from the prototype. The search results showed that the claimed invention does not follow explicitly from the prior art for the specialist, since the influence of the transformations provided for by the essential features of the claimed invention on the achievement of the technical result is not revealed from the prior art determined by the applicant. In particular, the claimed invention does not provide for the addition of a known agent to any known part attached to it according to known rules to achieve a technical result in respect of which the effect of such additions is established. For example, this transformation cannot include the inclusion in the method of operation of a thermal power plant of the operation of dividing the total flow of reverse network water into two parallel ones, since the inclusion of this operation alone does not ensure the achievement of the desired technical result. To achieve the desired result, simultaneously with the addition of the method of operation of a thermal power plant by the operation of dividing the total return flow of network water into two parallel ones, essentially new aggregate, order and conditions of operations included in the method were required. In particular, the heating of one of the parallel flows is provided in the basic mode in the network heaters, and the other in the peak mode in the hot water boilers, the network water flows heated in the network heaters and hot water boilers are mixed before being supplied to the consumers, the temperature of the total network water flow supplied to the consumers is regulated , produced at a reduced temperature schedule of the heating system, and anti-scale treatment of make-up water is carried out according to simplified technology.

 Therefore, the claimed invention meets the condition of "inventive step".

 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 a heating turbine 1, with heating steam extraction 2, to which the network heaters 3 are connected, a boiler 4 connected in the pipelines of the heating network 5 in parallel with the network heaters 3, the network pump of the first stage 6, the network pumps of the second stage 7. Connected to the pipelines of the heating network 5 make-up water pipeline 8, which includes chemical water treatment 9 and a vacuum deaerator 10.

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

The method consists of the following operations. The network water from consumers in the amount of 7000 t / h is divided into two parallel flows of 3500 t / h each, one of which is heated in the basic mode in the network heaters 3 of the T-100-130 turbine to 70-110 ^o C, and the other in peak mode, in PTVM-100 type 4 hot water boilers up to 70-110 ^o C (in the maximum design mode), the mains water flows mixed in network heaters 3 and 4 hot water boilers 4 are mixed before being supplied to consumers. The temperature control of the total flow of network water supplied to consumers is carried out according to the reduced temperature schedule of the heating system 110/70 ^o C (instead of the schedule traditionally used in the known methods, 150/70 ^o C) primarily due to the change in the heat load of boilers 4 and secondarily - due to changes in the load of network heaters. Water leaks from the heating system are compensated by make-up water, which, due to the reduced temperature schedule of the heating system, is subjected to anti-scale treatment using a simplified technology by dosing phosphonates, for example, the IOMS-1 mineral scale inhibitor (instead of the ion-exchange softening required in the known methods) in chemical water treatment 9, deaerated in the deaerator 10 and piped 8 is supplied to the heating system. Due to the reduced temperature schedule of the heating system, at which the maximum temperature of the network water is 110 ^o C (instead of the standard 150 ^o C), the scale formation rate in boilers is significantly reduced. In addition, the operation of the station with a reduced temperature of the mains water makes it possible to use a simplified, cheaper technology for anti-scale treatment of makeup water that is not associated with the formation of highly mineralized wastewater. An increase in the temperature difference at the inlet and outlet of hot water boilers up to 40 ^o C with the parallel switching on of hot water boilers and network heaters allows more fully use the thermal power of hot water boilers. Thus, the desired technical result is achieved, which consists in increasing the reliability, efficiency and environmental friendliness of the operation of a thermal power plant.

Thus, the above information indicates that when using the claimed method the following set of conditions:
- a tool embodying the claimed method is intended for use in industry in the field of heat power;
- for the claimed method in the form described in the claims, the possibility of its implementation using the means and methods described in the application is confirmed;
- the method of operation of a thermal power plant embodying the claimed invention, when implemented, is able to achieve the desired technical result.

 Therefore, the claimed invention meets the condition of "industrial applicability".

Claims (1)

 The method of operation of a thermal power plant, in which the network water supplied by consumers is heated in the network heaters of heating turbines and boilers, the temperature of the network water supplied to consumers is maintained depending on the outdoor temperature according to the temperature schedule of the heating system, the leakage of network water in the heating system is compensated by make-up water which is subjected to anti-scale treatment in accordance with the temperature regime of operation of boilers, characterized in that mains water from consumers is divided into two parallel streams, one of which is heated in the basic mode in network heaters, and the other is in peak mode in hot water boilers, the network water flows heated in network heaters and hot water boilers are mixed before being supplied to consumers, the common temperature control the flow of network water supplied to consumers is carried out at a lower temperature schedule of the heating network, and anti-scale treatment of make-up water is carried out according to simplified technology.