SU1590568A1 - Method of conditioning make-up water of central heating network and of additional feed water of boilers - Google Patents

Abstract

The invention relates to a power system, can be used in industrial-heating combined heat and power plants and makes it possible to increase reliability and efficiency. The source water is heated in series in the inline 19 of the condenser 11 and the lower network preheater 5, after which it is divided into two streams. One stream is sequentially desalted in a desalting plant 14, heated in a water heater, 22, deaerated in a deaerator 15, preheated additional feed water in preheaters 6.9 turbines 3, and fed to a pressurized deaerator 13. The other source water stream is heated in the upper network heater 8, softened and decarbonated in a vacuum deaerator 17, and feed water is supplied to the heating network 18. At the same time, the minimum energy potential is optimally heated by the steam. 1 il.

Description

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

The aim of the invention is to increase the reliability and efficiency.

The drawing shows a schematic diagram of a thermal power plant (TPP) for the implementation of the proposed method.

The TPP contains turbines 1–3, to which the lower 4–6 and upper 7–9 network heaters are connected in a select pair, and 10–12 condensers in the exhaust steam. The deaerator 13 high pressure communicated in pairs with the turbine 3, for additional feed water at the inlet - with the upper network heater 9, and at the outlet - with a boiler (not shown). The desalination plant 14 is in communication with the vacuum (atmospheric) deaerator 15 of the feedwater, and the chemical water treatment 16 is connected with the vacuum deaerator 17 of the make-up water of the heating network 18. The built-in bundle 19 of the condenser 11 is connected to the source water pipe 20, in which the lower 5 and upper 8 network are connected in series turbine heaters 2. The desalination plant 14 is connected by a pipe 21 to a source water pipe 20 behind a lower network heater 5, and through a water-water heater 22 and a demineralized water pipe 23 to by a vacuum deaerator 15, which is connected via a heating pipe 24 to a pipe 25 of additional feed water after the upper network heater 9. The heaters 6 and 9 can be regenerative.

The method of preparation of make-up and additional feed water at TPP is as follows.

The total flow of source water of drinking quality is heated, for example, to 15–20 ° C, in the built-in bundle 19 of condenser II, and then to 30–35 ° C in the lower network heater 5. The heated source water behind the lower network heater 5 is divided into two flow. One stream through pipeline 21 is fed to a desalination plant 14, where it is desalted, and then successively heated in a water-water heater 22 to 75-85 ° C, deaerated in an atmospheric deaerator 15, heated in heaters 6 and 9, deaerated in a deaerator 13 high pressure and sent as additional make-up water ₁₀ to the boiler. Another stream of heated source water is heated to 50 ° C in the upper network heater 8, then softened and decarbonized in a chemical water purifier 16 and fed to a vacuum deaerator 17, where deaerated and prepared make-up water 15 is sent to the heating network 18. If the deaerator 15 is vacuum-type, then water in a water-water heater 22 is heated to 50–55 ° C. This ensures the optimum temperature of the source water before 2θ desalination plant 14 and chemical water treatment 16 with stepwise heating of the water before chemical water treatment 16 with steam of the lowest possible energy potential.

Claims (1)

25 claims The method of preparing makeup water of the heating network and additional feed water of boilers by heating the source water in the upper and lower network heaters ^{30 with} selected steam of one of the turbines, sequential desalination, deaeration in a vacuum deaerator, heating additional feed water in the heaters of another turbine and supplying it to a high pressure deaerator characterized in that ^35, in order to increase reliability and economy, the source water after heating in the lower network heater is divided into two streams, one of which, after desalting, is additionally heated up to 40 with feed water taken after the heaters of another turbine, and the other stream is heated in the upper network heater, softened, deaerated and fed with make-up water to the heating system.