RU2578045C1 - METHOD FOR AUTOMATIC ADJUSTMENT OF pH OF CIRCULATION WATER OF COOLING LOOP OF ELECTRIC GENERATOR STATOR OF STEAM TURBINE - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention can be used for automatic adjustment of pH value of circulating water of cooling loop of electric generator stator of steam turbine. Present invention consists in changing supply of alkali in circulation water is circulation line after filter through a dosing cistern with adjusting valve on suction of circulation pump, specific conductivity is measured in sample circulating water to entrance to stator winding with functional relationship with concentration of dosed alkali and pH of circulation water, which is used in structure of automatic control system for design of determining lower and upper limits of values of electrical conductivity to generate command for opening or closing adjusting valve on recirculation line.

EFFECT: technical result is possibility of maintaining high accuracy of specified value of pH of circulation water circuit of electric generator stator cooling of steam turbine.

1 cl, 1 dwg, 2 tbl

Description

The invention relates to the field of power engineering and can be used in circulating water cooling systems of the stator of an electric generator driven by a steam turbine at power units of TPPs and nuclear power plants.

A known method of measuring the pH of the medium by measuring the EMF of a pair of electrodes in contact with a controlled solution, for automatic determination of pH values over a wide range (7.5-13.0) (USSR author's certificate No. 123751, IPC G01N 27/416, 1959) .

The disadvantage of this method is the impossibility of its use for extremely dilute solutions in a slightly alkaline and slightly acidic medium with a sample flow.

The well-known "Method and device for measuring the pH of weakly alkaline solutions" (Patent for the invention of the Russian Federation No. 2456578, IPC G01N 21/27, 2012) by extrapolating spectrophotometric measurements from many sensitive elements - pH indicators, in which first through indicators in contact with the solution and having a known pH, a calibration curve is built, and then the pH of the test solution is measured using a calibration curve.

The disadvantage of this method is the use of numerous colorimetric pH indicators and measuring the pH - response with a colorimeter or spectrophotometer, which in the conditions of operational chemical control of the quality of steam, steam condensate and feed water of a TPP and NPP power unit with a sample flow seems unsuitable.

The well-known "Method for automatically controlling the pH of aqueous solutions" (patent for the invention of the Russian Federation No. 2284048, IPC G05D 21/00, C02F 1/66, C02F 103/06, 2006), adopted as a prototype, by changing the flow of acid or alkali in Reactors-mixers includes the use in the structure of an automatic control system as an adjustable value and a task value - a linearized inverse function of the non-linear dependence of the pH value on the concentration of acid or alkali.

The disadvantage of this method is the inability to provide the specified accuracy of maintaining the pH in the range of 7.0-9.0 in an extremely diluted low-buffer aqueous solution, which is the circulation water of the cooling circuit of the stator of the power generator of the TPP and NPP unit.

The technical result consists in creating a method that allows for high accuracy of maintaining a given pH value of the circulating water of the cooling circuit of the stator of the steam turbine generator.

The technical result is achieved by the fact that in the method for automatically adjusting the pH of the circulating water of the cooling circuit of the stator of the steam turbine generator, by changing the alkali supply to the circulating water, including the use in the structure of the automatic control system of the functional dependence of pH on the concentration of the dosed alkali, a recirculation line is established after the filter through the dosing tank with a control valve on the inlet of the circulation pump, measure the electrical conductivity in the flow of circulating water samples before entering the stator winding, which has a functional relationship with the concentration of dosed alkali and with the pH value of the circulating water, which is used in the structure of the automatic control system to calculate the lower and upper limits of the conductivity values by which an opening or closing command is formed control valve on the recirculation line.

The drawing shows a diagram of the cooling circuit of the stator of an electric generator of a steam turbine, explaining the essence of the proposed method.

The stator cooling circuit of the steam turbine power generator contains a pressure line including a circulation tank 1, pump 2, heat exchanger 3, filter 4, stator windings of the electric generator 5. A recirculation line with a flow rate of not more than 0.005% of the circulation water flow is arranged in the circuit after filter 4 through a shut-off a tap 6, a metering tank 7 and an adjusting valve 8 at the inlet of the pump 2. The alkali entering the circulating water from the metering tank 7 increases the pH and electrical conductivity, which is measured by a sensor 9 connected through an automatic control system 10, with an adjusting valve 8. The dosing tank 7 is equipped with taps 11 and 12.

The method is implemented as follows. Water from circulation tank 1 is pumped through pump 2 through heat exchanger 3, where it is cooled, and through filter 4 it is supplied to cool the stator windings of electric generator 5 and returned to circulation tank 1. From the pressure line after filter 4, a small diameter pipeline with shut-off valve 6 is supplied with water tank 7, with a volume of 0.1-0.2 m ³ loaded with an alkali solution of 1-2% concentration. From where it displaces a small amount of alkali through an open control valve 8 to the pump inlet 2. The shut-off valve 6 is open in operating mode and closed in the overload mode of the metering tank 7 with alkali. In the reset mode, the metering tank 7 is vented through the valve 11, the valve 12 is used to drain the water tank from the metering tank 7 and fill it with an alkali solution. The control valve 8 opens and closes automatically at the command of the automatic control system 10. The alkali entering the circulating water increases the pH value and electrical conductivity, which is measured by the sensor 9, the signal from which with a given resolution goes to the automatic control system 10, where a signal for opening or closing the control valve 8.

The relationship between pH and electrical conductivity of the circulating water is determined from the following:

, при

или

at

or

The electrical conductivity χ is the sum of the electrical conductivities of the condensate χ _cond and alkali χ _NaOH

According to the equation of electrical conductivity

или в нашем случае:

or in our case:

where λ _NaOH is the equivalent conductivity of NaOH, at 25 ° C in an extremely dilute aqueous solution, equal to 248.4 Ohm ^-1 · cm ² · equiv ^-1 .

Then at t = 25 ° C, we get

, моль/дм³, то получимAs

, mol / dm ³ , we obtain

Then,

And back,

Here, χ is measured in S / cm, the concentration of hydrogen ions is in mol / dm ³ .

According to circular C10 / 85 (E) (On the organization of the water-chemical regime of the cooling system of the stator windings of turbo and hydrogenerators / M. SPO ORGRES. 1985), the pH of the circulating water of the cooling system of the stator windings of the stator of the electric generator is normalized in the range of 8.0-9.0 (8.5 ± 0.5). Then, the lower limit of the normalized pH value is determined by the expression

or when measuring specific conductivity in μS / cm

The upper limit of the normalized pH value is determined by the expression

When the measured values of the specific conductivity χ of the circulating water are lower or equal to χ _n , the automatic control system 10 gives the command to open the control valve 8, for values of χ equal to or greater than χ _in - to close the control valve 8. The frequency of opening and closing of the control valve 8 depends on the concentrations NaOH in the metering tank 7 and the capacity of the control valve 8. As the alkali is displaced from the metering tank 7 with water, alkali is diluted and the opening periods of the control valve 8 increase, and the absence of an increase in the electrical conductivity of the circulating water when the control valve 8 is open indicates the absence of alkali and the need to recharge the metering tank 7 with an alkali solution, for which valves 11 and 12 are used with the shut-off valve 6 and control valve 8 closed.

The following are examples of the method.

Example 1

In the table. 1 shows the results of the analysis of circulating water of cooling systems for the windings of stators of electric generators (SOSG) of power units Nos. 3, 4, 5 of Konakovskaya State District Power Station.

The pH values of the circulating water are at the limit of normal, sometimes go beyond the lower limit. The dosage of NaOH according to the proposed method will provide stable pH control with an average value of χ _cond = 0.55 μS / cm within the specific conductivity (formulas 7 and 8) equal to

χ _n = 0.8 μS / cm, χ _in = 3.0 μS / cm.

When the measured values of χ of circulating water are lower than or equal to 0.8 μS / cm, the automatic control system 10 gives the command to open the control valve 8, with values of χ equal to or greater than 3.0 - to close the control valve 8.

The current pH values of the circulating water, calculated by the formula (5) based on the measured values of electrical conductivity, are given in table. 2.

The pH values measured by industrial automatic pH meters in water such as condensate and circulating water are characterized by low accuracy and reproducibility, especially when the pH decreases from 8.5 to 7.5 pH units. This is confirmed by the data in table. 2. The above circumstance does not allow the use of industrial pH meters in automatic pH control systems of low-buffer ultimately diluted aqueous solutions, which are also the circulation water of the cooling circuit of the stator of an electric generator.

Claims (1)

 A method for automatically controlling the pH of the circulating water of the stator cooling circuit of a steam turbine power generator by changing the alkali supply to the circulating water, comprising using in the structure of the automatic control system a functional dependence of pH on the concentration of the dosed alkali, characterized in that they organize a recirculation line after the filter through a dosing tank with an adjustment tap on the suction of the circulation pump, measure the electrical conductivity in the sample flow circulation water before entering the stator winding, which has a functional relationship with the concentration of the dosed alkali with the pH value of the circulating water, which is used in the structure of the automatic control system for the calculation of the lower and upper limits of the conductivity values, which form the command to open or close the control valve on the line recycling.