CN203820508U

CN203820508U - Internal cooling water treatment system of generator

Info

Publication number: CN203820508U
Application number: CN201420240514.XU
Authority: CN
Inventors: 张维科; 李海洋; 汪思华; 潘珺
Original assignee: Thermal Power Research Institute
Current assignee: Xian Thermal Power Research Institute Co Ltd
Priority date: 2014-05-12
Filing date: 2014-05-12
Publication date: 2014-09-10
Anticipated expiration: 2024-05-12

Abstract

An internal cooling water treatment system of a generator comprises an ammoniated mixed bed, wherein a first stop valve, a flow regulating valve and a flow meter are arranged on a pipeline which is connected with an inlet of the ammoniated mixed bed and a cooler water outlet pipeline sequentially, a second stop valve and a resin trapper are arranged on a pipeline which is connected with an outlet of the ammoniated mixed bed and an internal cooling water tank sequentially, and a third stop valve used for discharging washing water before the ammoniated mixed bed is put into operation is further arranged at the outlet of the ammoniated mixed bed; the system further comprises a hydrogen conductivity measuring unit which is arranged on an original conductivity measurement water outlet pipeline of the internal cooling water system; a flow controller is arranged between the hydrogen conductivity measuring unit and the flow regulating valve, receives a hydrogen conductivity signal emitted by the hydrogen conductivity measuring unit and emits a regulating signal to the flow regulating valve according to the hydrogen conductivity, so that the hydrogen conductivity of internal cooling water is maintained in the range of 0.4 mu S/cm-0.6 mu S/cm. The internal cooling water treatment system has the characteristics of simple system, stable water quality and no pollution, and can guarantee that the water quality of internal cooling water of the generator meets DL /T801-2010 technical requirements of quality and internal cooling water system for large generator.

Description

A kind of electric generator inner cooling water treatment system

Technical field

The utility model relates to technical field of generators, is specifically related to a kind of electric generator inner cooling water treatment system.

Background technology

The stator of large and medium-sized generator or rotor winding normally adopt high purity water cooling, cooling water circulation utilization.Because electric generator inner cooling water is in working cycle, air inevitably bleeds, and in air, contains micro-carbonic acid gas (volume accounts for 0.039%), along with the continuous circulation of electric generator inner cooling water, and CO ₂constantly accumulation in inner cold water, the pH of inner cold water reduces gradually, and specific conductivity first reduces and then raises.PH reduces the corrosion that has increased generator copper coil, and the increase of inner cold water specific conductivity has reduced the insulating property of generator.The direct result of copper coil corrosion is that the copper content of inner cold water raises, and even more serious consequence is that corrosion product may deposit in hollow copper coil, causes water quench effect to reduce, and finally causes coil overheated and threaten normal safety in production.Generator insulating reduces will cause electric leakage, thereby cause security incident.Therefore the pH value of necessary regulation and control inner cold water, in suitable scope, prevents the corrosion of hollow copper coil, also will ensure the reliable insulating property of generator simultaneously.Research thinks, the pH value of regulation and control inner cold water, between 8.0～9.0, can make the corrosion of hollow copper conductor in inner cold water be reduced to minimum.

Current electric generator inner cooling water treatment method mainly contains: 1) neutral pH+hyperoxia (>2000 μ g/L); 2) neutral pH+hypoxemia (<50 μ g/L); 3) alkaline pH (8.0～9.0)+do not control dissolved oxygen; China is the 3rd kind of processing mode of main employing at present, also all concentrates on the 3rd kind of mode from the patent of current research direction and announcement.For the 3rd kind of mode, due to the difference of inner cold water alkalization mode, be divided into again and a) directly add NaOH type; B) adopt sodium ion exchange bed indirectly to add NaOH type; C) adopt containing the condensed water of ammonia and the condensate polisher water or the de-mineralized water adjustment type that do not contain ammonia.

1, directly add NaOH type

This inner cold water alkalinisation treatment is to allow part inner cold water (being generally no more than 10%) first through the little mixed bed of RH/ROH type, inner cold water be carried out to purification process, then adding NaOH solution in little mixed bed outlet, the pH that improves inner cold water by the add-on of adjusting NaOH is to (8.0～9.0), and the specific conductivity of controlling inner cold water by the by-pass flow treatment capacity of adjusting inner cold water is in acceptability limit.

Advantage: can, by regulating the add-on of NaOH, the pH of inner cold water be brought up to arbitrary value; Also can the specific conductivity of inner cold water be controlled in acceptability limit by adjusting by-pass flow treatment capacity.

Shortcoming: 1) due to CO ₂bleed, join NaOH in inner cold water very fast response become Na ₂cO ₃or NaHCO ₃thereby, make the actual pH of inner cold water lower than desired value, degree on the low side depends on CO ₂the speed of bleeding and by-pass flow treatment capacity.If in order to improve pH, can realize by the add-on that improves NaOH, but be faced with the problem that inner cold water specific conductivity exceeds standard.If reduce CO by improving by-pass flow treatment capacity ₂accumulation, will be removing CO in inner cold water ₂time, also remove the NaOH adding; And NaOH is strong alkaline substance, it regulates the very capable of pH, very poor but consequent problem is exactly resiliency, and therefore, this kind of mode is difficult to control in actual use, and the pH of working control is substantially 7.0～8.0.2) because the specific conductivity general control of inner cold water is below 2 μ S/cm, belong to pure water category, and the direct measurement of pure water pH is affected by static charge etc. easily, be difficult to survey accurate, this is generally acknowledged global problem at present.This inner cold water treatment process relies on pH monitoring result to regulate add-on and the by-pass flow treatment capacity of NaOH exactly, because pH mensuration is inaccurate, unreliable, causes inner cold water to be processed and is difficult to regulation and control to re-set target.

2, adopt sodium ion exchange bed indirectly to add NaOH type

This inner cold water alkalinisation treatment is to allow part inner cold water (being generally no more than 10%), through RNa/ROH type little mixed bed, inner cold water is carried out to alkalinisation treatment, and its principle is to allow the Cu corroding in inner cold water ²⁺or other positively charged ion and R-Na exchange generation Na ⁺, negatively charged ion is (as CO ₃ ^2-, HCO ₃ ^-) produce OH with R-OH exchange ^-, finally in mixed bed water outlet, produce micro-NaOH, indirectly in inner cold water, add NaOH, thereby improve the pH of inner cold water.

Advantage: the NaOH amount producing due to sodium ion exchange bed is very little, controls in theory than being easier to.

Shortcoming: 1) owing to will having enough tradable Cu in this processing requirements inner cold water ²⁺, this just contradicts with the original intention of inner cold water processing, and the object that improves inner cold water pH is exactly to reduce as far as possible the corrosion of generator copper coil, reduces the Cu in inner cold water ²⁺content; If the Cu in inner cold water ²⁺content has reduced, and the NaOH amount producing through the little mixed bed of RNa/ROH type is so just few, and pH is just low, and the corrosion of copper coil has just increased.And research shows that the corrosion product of copper coil in neutral or alkaline inner cold water is mainly that the oxide compound of copper is as CuO and Cu ₂o, instead of Cu ²⁺, therefore, in inner cold water, almost there is no tradable positively charged ion, therefore, this alkalinisation treatment is just difficult to produce the NaOH of expection concentration, and the actual running results of many power plant also fully shows that the NaOH that in this, alkalinisation treatment produces measures very little, and the pH of inner cold water is generally below 8.0.2) this processing mode is all the by-pass flow treatment capacity that the inner cold water pH that shows directly to measure by pH regulates and controls mixed bed with directly adding NaOH the same, therefore all exists because pH measures the inaccurate bypass flow causing and regulates and be difficult to control problem.

3, adopt containing the condensed water of ammonia and the condensed water or the de-mineralized water adjustment type that do not contain ammonia

This processing is to control and realize than being easier in existing inner cold water processing mode, it be according to containing the condensed water of ammonia with do not contain the condensed water of ammonia or de-mineralized water and mix using certain proportion after as the make up water of inner cold water,, change water by continuously large flow and reduce CO to 8.0～9.0 according to the pH (according to Conductivity Calculation value) of the make up water conductivity adjustment make up water of measuring ₂accumulation in inner cold water, therefore, the CO of inner cold water ₂concentration can be controlled at lower level by improving quantity of exchanged water, thereby the pH that controls inner cold water is 8.0～8.5.

Advantage: the regulating power to inner cold water pH and specific conductivity is strong.

Shortcoming: 1) pH of inner cold water remains and relies on electric potential type pH to show directly to measure, and therefore, pH measures the inaccurate problem of bringing and still exists, and the adjusting of quantity of exchanged water just exists very large problem.2) high to the water quality requirement of make up water.Because this treatment process does not have, inner cold water is carried out to cleaning action, once make up water water quality goes wrong, inner cold water water quality just goes wrong thereupon, thereby threatens the operating safety of generator.3) inapplicable for there is no the unit of unit for condensate fine desalting, because the inner cold water being recycled in condenser contains a certain amount of copper, these copper can be deposited on Water, steam circulation the internal surface, particularly turbine blade of heat power equipment, affect the operational efficiency of steam turbine.

In sum, because current various inner cold water alkalinisation treatment modes exist such-and-such problem, pH is always lower than 8.0～9.0 expected value, therefore, simple in the urgent need to one, easy to handle device and control method.

The Major Difficulties that inner cold water alkalinisation treatment faces is CO ₂bleed and accumulate, during due to inner cold water basic treatment, general requirement pH is 8.0～9.0, no matter basifier is NaOH or ammoniacal liquor, its concentration is very low (NaOH is 40 μ g/L～400 μ g/L, and ammoniacal liquor is 18 μ g/L～265 μ g/L) all.Therefore, the non-constant of its resiliency; In addition alkaline water is easy to absorb airborne CO ₂, therefore, the main task of inner cold water alkalinisation treatment is how to reduce CO ₂bleed and accumulate.Reduce CO ₂bleed and easily accomplish, but to avoid be completely unpractical, even and if CO ₂the amount of bleeding reduced, but because the water space of inner cold water system is very little, CO ₂accumulation still very fast.Therefore, best processing mode is to reduce CO ₂accumulation, also can not remove the basifier in inner cold water, so just can accomplish in without exhaust waste situation, by the CO in inner cold water ₂concentration is reduced to an acceptable level, thereby makes the pH of inner cold water ensure to be controlled at 8.0～9.0 under the prerequisite that specific conductivity is qualified.

Summary of the invention

The problem existing in order to solve above-mentioned prior art, the purpose of this utility model is to provide a kind of electric generator inner cooling water treatment system, can ensure that specific conductivity is less than 2 μ S/cm, pH and reaches 8.1～8.6, electric generator inner cooling water copper content <5 μ g/L.

To achieve these goals, the utility model is by the following technical solutions:

A kind of electric generator inner cooling water treatment system, comprise ammonium mixed bed 4, on the pipeline being connected with water cooler outlet conduit at ammonium mixed bed 4 entrances, be disposed with the first stopping valve 1, flow control valve 2 and under meter 3, export on the pipeline being connected with inner cold water case and be disposed with the second stopping valve 6 and resin catcher 7 in ammonium mixed bed 4, ammonium mixed bed 4 export be also provided with put into operation for ammonex 4 before the 3rd stopping valve 5 of water flush discharge, also comprise the hydrogen conductivity measuring unit 8 being arranged on the original conductivity measurement outlet pipeline of inner cold water system, between hydrogen conductivity measuring unit 8 and flow control valve 2, be provided with flow director 9, flow director 9 is accepted the hydrogen conductivity signal sending from hydrogen conductivity measuring unit 8, and according to the size of hydrogen conductivity, send conditioning signal to flow control valve 2, make the hydrogen conductivity of inner cold water maintain 0.4 μ S/cm～0.6 μ S/cm, under meter 3 is for showing by-pass flow treatment capacity.

Ammonium type strong acid positive resin and hydrogen-oxygen type strong basicity negative resin that preset ratio mixes are housed in described ammonium mixed bed 4.

The volume ratio of the ammonium type strong acid positive resin of described preset ratio and hydrogen-oxygen type strong basicity negative resin is 1:2～1:4.

Described hydrogen conductivity measuring unit 8 comprises the hydrogen exchange post 8-2 of #1 T-valve 8-1, #1, the #2 T-valve 8-3, specific conductivity table 8-4, #3 T-valve 8-5, the hydrogen exchange post 8-7 of #4 T-valve 8-6, #2 and the #5 T-valve 8-8 that connect successively; The feed-water end of described #1 T-valve 8-1 is connected with water sample suction culvert, a water side of #1 T-valve 8-1 is connected with the entrance of the hydrogen exchange post 8-2 of #1 and a water side of #4 T-valve 8-6, and another water side of #1 T-valve 8-1 is connected with another water side of #4 T-valve 8-6 and the entrance of the hydrogen exchange post 8-7 of #2; The feed-water end of described #2 T-valve 8-3 is connected with the outlet of the hydrogen exchange post 8-2 of #1, and trench is directly arranged in a water side, and another water side is connected with the feed-water end of specific conductivity table 8-4 and a water side of #5 T-valve 8-8; The feed-water end of described #3 T-valve 8-5 is connected with specific conductivity table 8-4 water side, water side row's trench, and another water side is connected with the feed-water end of #4 T-valve 8-6; A water side of described #4 T-valve 8-6 is connected with the entrance of the hydrogen exchange post 8-2 of #1 and a water side of #1 T-valve 8-1, and another water side is connected with the entrance of the hydrogen exchange post 8-7 of #2 and another water side of #1 T-valve 8-1; The feed-water end of described #5 T-valve 8-8 is connected with the outlet of the hydrogen exchange post 8-7 of #2, water side row's trench, and another water side is also connected with the feed-water end of specific conductivity table 8-4.

The treatment process of a kind of electric generator inner cooling water treatment system described above, open the first stopping valve 1 and the second stopping valve 6, start inside cold water treatment system water inlet, allow the inner cold water of inner cold water gross weight 5%～10% successively through the first stopping valve 1, flow control valve 2 and under meter 3, enter ammonium mixed bed 4, in ammonium mixed bed 4, make the HCO in inner cold water ₃ ^-and CO ₃ ^2-become OH with the exchange of hydrogen-oxygen type strong basicity negative resin ^-, make the most CO in inner cold water ₂be removed the NH in inner cold water ₄ ⁺do not exchange with ammonium type strong acid positive resin, therefore, the NH in inner cold water ₄ ⁺substantially remain unchanged, after treatment hardly containing CO through ammonium mixed bed ₂alkaline water second stopping valve 6 of flowing through enter resin catcher 7, in order to hold back the resin particle likely spilling from ammonium mixed bed 4, flow back into again inner cold water case from resin catcher 7 alkaline water out; Water flush discharge before stopping valve 5 puts into operation for ammonium mixed bed; The inner cold water hydrogen conductivity adjust flux variable valve 2 that flow director 9 is measured according to hydrogen conductivity measuring unit 8 makes the hydrogen conductivity of inner cold water maintain 0.4 μ S/cm～0.6 μ S/cm; Operations staff utilizes in the inside cold water storage cistern of original inner cold water water charging system and mends de-mineralized water according to the existing conductivity measurements of inner cold water treatment system, in the time that the specific conductivity of inner cold water is greater than 1.4 μ S/cm, mend de-mineralized water, in the time that the specific conductivity of inner cold water is less than 1.3 μ S/cm, mend condensed water.

The method that described hydrogen conductivity measuring unit 8 is measured inner cold water hydrogen conductivity is: in the time that hydrogen conductivity measuring unit 8 has just put into operation, in the hydrogen exchange post 8-2 of #1 and the hydrogen exchange post 8-7 of #2, it is all the variable color Zeo-karb of having regenerated, inner cold water water sample flow through the successively hydrogen exchange post 8-2 of #1 T-valve 8-1, #1, #2 T-valve 8-3 and specific conductivity table 8-4, specific conductivity table 8-4 records the hydrogen conductivity of inner cold water, finally enters trench from flow through successively again #3 T-valve 8-5, the hydrogen exchange post 8-7 of #4 T-valve 8-6, #2 and #5 T-valve 8-8 of specific conductivity table 8-4 water sample out; After the hydrogen exchange post 8-2 of #1 lost efficacy, by switching #1 T-valve 8-1, make water sample flow through the successively hydrogen exchange post 8-7 of #2, #5 T-valve 8-8 and specific conductivity table 8-4, specific conductivity table 8-4 records the hydrogen conductivity of inner cold water, enters trench from the specific conductivity table 8-4 water out #3 T-valve 8-5 that flows through again; Now the #1 exchange column 8-2 of inefficacy is taken off regeneration by operations staff, when the hydrogen exchange post 8-2 of the #1 having regenerated packs into after hydrogen conductivity measuring unit 8, by switching #3 T-valve 8-5, stop the water sample row trench out by specific conductivity table 8-4, and make water sample enter the hydrogen exchange post 8-2 of #1 through #4 T-valve 8-6, rinse the hydrogen exchange post 8-2 of #1; By the time when the hydrogen exchange post 8-7 of #2 lost efficacy, the hydrogen exchange post 8-2 of #1 has rinsed already, so switch to the hydrogen exchange post 8-2 operation of #1 by T-valve, hydrogen exchange #2 post 8-7 is taken off to regeneration, so repeatedly, just can realize the continuously measured of hydrogen conductivity.

When losing efficacy, the variable color Zeo-karb in the hydrogen exchange post 8-2 of #1 and the hydrogen exchange post 8-7 of #2 changed resin 3/4 time.

The utility model allows part (5%～10%) inner cold water through ammonium mixed bed 4, makes the HCO in inner cold water ₃ ^-and CO ₃ ^2-become OH with the exchange of R-OH type strong base negative resin ^-thereby, reduce CO ₂accumulation in inner cold water; NH in inner cold water ₄ ⁺with R-NH ₄type strong acid sun resin does not exchange, therefore, and the NH in inner cold water ₄ ⁺substantially constant, also can become NH by ion-exchange if contain other impurity cationic in interior water ₄ ⁺thereby, realize and can constantly remove the CO in inner cold water ₂, prevent due to the system CO that constantly bleeds ₂and make the CO in inner cold water ₂concentration constantly raises, and can retain again original NH ₄ ⁺concentration is substantially constant, thereby plays the object that maintains inner cold water pH and stable conductivity, and has the effect that inner cold water is purified.

The utility model is measured the hydrogen conductivity of inner cold water, and the by-pass flow treatment capacity of inner cold water regulates according to the hydrogen conductivity of inner cold water; The regulation of level of inner cold water case utilizes original inner cold water water charging system to control, and the selection of make up water water source (condensed water and de-mineralized water) decides according to the specific conductivity of inner cold water.

The utility model is monitored the CO in inner cold water continuously by the hydrogen conductivity of measuring inner cold water ₂concentration, thus realize the Reasonable Regulation And Control to inner cold water by-pass flow treatment capacity.

The utility model is monitored ammonia in inner cold water and the concentration of bicarbonate of ammonia continuously according to the specific conductivity of inner cold water (monitoring index that inner cold water system just had originally), thereby maintain the specific conductivity of inner cold water at 1.2 μ S/cm～1.5 μ S/cm, pH is 8.1～8.6.

The utility model is mended de-mineralized water in the time that inner cold water specific conductivity is greater than 1.4 μ S/cm, in the time that being less than 1.3 μ S/cm, inner cold water specific conductivity mends condensed water, utilize original inner cold water water charging system, employing replaces the water sample inner cold water loss causing of directly draining when supplementing condensed water or de-mineralized water and measuring due to specific conductivity and hydrogen conductivity to make up of inside cold water storage cistern, and rate of water make-up is approximately 300L～400L every day.

For the hydrogen conductivity of Accurate Determining inner cold water, the hydrogen exchange post that the utility model adopts is variable color Zeo-karb, and exchange column adopts transparent organic glass to make.

Due to the hydrogen exchange post of having regenerated generally at least need to rinse more than 24 hours could cleaning down clean, but the hydrogen conductivity of inner cold water needs continuously measured.In order to address this problem, the hydrogen exchange post that the utility model adopts is 2 exchange column series operations, after one of them exchange column lost efficacy, switches to another exchange column operation by valve, and the exchange column of inefficacy is taken off to regeneration; The exchange column of having regenerated packs into after system, just can utilize the new exchange column of exchange column water outlet continuous flushing moving, by the time after the exchange column of operation lost efficacy, new exchange column has just rinsed well already, just can switch to the new exchange column operation of having rinsed by valve, so repeatedly, just can realize the continuously measured to hydrogen conductivity.

The utility model compared to the prior art, possesses following advantage:

1, reliability high, easily control.Because the utility model adopts hydrogen conductivity control inner cold water by-pass flow treatment capacity, adopt the moisturizing of specific conductivity control inner cold water, and conductivity measurement is the highest on-line chemical monitoring instrument of current power plant's reliability, therefore, system reliability of operation is very high, controls to be also very easy to.

2, internally the sealing requirements of cold water storage cistern is low.Can suitably adjust according to the hydrogen conductivity of inner cold water the stopping property of inner cold water case, also can adjust according to the hydrogen conductivity of inner cold water the by-pass flow treatment capacity of inner cold water, thereby easily by the CO of inner cold water ₂concentration is controlled within the scope of acceptable.

3, to inner cold water moisturizing require low.Because ammonium mixed bed has stronger cleaning action to inner cold water, therefore, inner cold water moisturizing in time goes wrong, and ammonium mixed bed also can ensure that inner cold water water quality is qualified.

4, there is no blowdown, rate of water make-up is very little.Because being just in operation, the utility model removes continuously the CO being dissolved in inner cold water ₂, ammonium radical ion does not almost lose, and therefore, there is no blowdown, and a small amount of moisturizing is just in order to supplement the inner cold water due to specific conductivity and hydrogen conductivity measurement loss, and rate of water make-up only has 15L/h left and right.

5, system is simple, and cost is low, easily on existing installation, carries out improvement and installation.

6, operation expense is low.Resin in ammonium mixed bed can move more than 1 year, guarantees need not change resin within 1 turn(a)round of the normal operation of unit.

7, applied widely, can be used for determining chilled water system, also can be used for double-water internal cooling system.

Brief description of the drawings

Fig. 1 is the utility model inner cold water treatment system schematic diagram.

Fig. 2 is the utility model inner cold water hydrogen conductivity measuring unit schematic diagram.

Schema when Fig. 3 is the hydrogen exchange post operation of #1.

Schema when Fig. 4 is the hydrogen exchange post operation of #2.

Embodiment

Below in conjunction with embodiment, the utility model is described in more detail.

As shown in Figure 1, a kind of electric generator inner cooling water treatment system of the utility model, comprise ammonium mixed bed 4, on the pipeline being connected with water cooler outlet conduit at ammonium mixed bed 4 entrances, be disposed with the first stopping valve 1, flow control valve 2 and under meter 3, export on the pipeline being connected with inner cold water case and be disposed with the second stopping valve 6 and resin catcher 7 in ammonium mixed bed 4, ammonium mixed bed 4 export be also provided with put into operation for ammonex 4 before the 3rd stopping valve 5 of water flush discharge, also comprise the hydrogen conductivity measuring unit 8 being arranged on the original conductivity measurement outlet pipeline of inner cold water system, between hydrogen conductivity measuring unit 8 and flow control valve 2, be provided with flow director 9, flow director 9 is accepted the hydrogen conductivity signal sending from hydrogen conductivity measuring unit 8, and according to the size of hydrogen conductivity, send conditioning signal to flow control valve (2), under meter 3 is for showing by-pass flow treatment capacity.

As preferred implementation of the present utility model, ammonium type strong acid positive resin and hydrogen-oxygen type strong basicity negative resin that preset ratio mixes are housed in described ammonium mixed bed 4.Further, the volume ratio of the ammonium type strong acid positive resin of described preset ratio and hydrogen-oxygen type strong basicity negative resin is 1:2～1:4.

As shown in Figure 2, hydrogen conductivity measuring unit 8 comprises the hydrogen exchange post 8-2 of #1 T-valve 8-1, #1, the #2 T-valve 8-3, specific conductivity table 8-4, #3 T-valve 8-5, the hydrogen exchange post 8-7 of #4 T-valve 8-6, #2 and the #5 T-valve 8-8 that connect successively; The feed-water end of described #1 T-valve 8-1 is connected with water sample suction culvert, a water side of #1 T-valve 8-1 is connected with the entrance of the hydrogen exchange post 8-2 of #1 and a water side of #4 T-valve 8-6, and another water side of #1 T-valve 8-1 is connected with another water side of #4 T-valve 8-6 and the entrance of the hydrogen exchange post 8-7 of #2; The feed-water end of described #2 T-valve 8-3 is connected with the outlet of the hydrogen exchange post 8-2 of #1, and trench is directly arranged in a water side, and another water side is connected with the feed-water end of specific conductivity table 8-4 and a water side of #5 T-valve 8-8; The feed-water end of described #3 T-valve 8-5 is connected with specific conductivity table 8-4 water side, water side row's trench, and another water side is connected with the feed-water end of #4 T-valve 8-6; A water side of described #4 T-valve 8-6 is connected with the entrance of the hydrogen exchange post 8-2 of #1 and a water side of #1 T-valve 8-1, and another water side is connected with the entrance of the hydrogen exchange post 8-7 of #2 and another water side of #1 T-valve 8-1; The feed-water end of described #5 T-valve 8-8 is connected with the outlet of the hydrogen exchange post 8-7 of #2, water side row's trench, and another water side is also connected with the feed-water end of specific conductivity table 8-4.

As shown in Figure 1, the treatment process of a kind of electric generator inner cooling water treatment system described above, before inner cold water treatment system puts into operation, first inwardly cold water storage cistern fills into condensed water, start inner cold water pump, inner cold water treatment system starts circulation, according to the inner cold water specific conductivity recording (monitoring index that inner cold water system just had originally), inwardly cold water storage cistern is mended de-mineralized water on one side, blowdown on one side, until the specific conductivity of inner cold water is down to 1.3 μ S/cm～1.4 μ S/cm, hydrogen conductivity is down to below 0.6 μ S/cm, stops moisturizing and blowdown.

Concrete method is: open the first stopping valve 1 and the second stopping valve 6, start inside cold water treatment system water inlet, allow the inner cold water of inner cold water gross weight 5%～10% successively through the first stopping valve 1, flow control valve 2 and under meter 3, enter ammonium mixed bed 4, in ammonium mixed bed 4, make the HCO in inner cold water ₃ ^-and CO ₃ ^2-become OH with the exchange of hydrogen-oxygen type strong basicity negative resin ^-, make the most CO in inner cold water ₂be removed the NH in inner cold water ₄ ⁺do not exchange with ammonium type strong acid positive resin, therefore, the NH in inner cold water ₄ ⁺substantially remain unchanged, after treatment hardly containing CO through ammonium mixed bed ₂alkaline water second stopping valve 6 of flowing through enter resin catcher 7, in order to hold back the resin particle likely spilling from ammonium mixed bed 4, flow back into again inner cold water case from resin catcher 7 alkaline water out; Water flush discharge before stopping valve 5 puts into operation for ammonium mixed bed; The inner cold water hydrogen conductivity adjust flux variable valve 2 that flow director 9 is measured according to hydrogen conductivity measuring unit 8 makes the hydrogen conductivity of inner cold water maintain 0.4 μ S/cm～0.6 μ S/cm; Operations staff utilizes in the inside cold water storage cistern of original inner cold water water charging system and mends de-mineralized water according to the existing conductivity measurements of inner cold water treatment system, in the time that the specific conductivity of inner cold water is greater than 1.4 μ S/cm, mend de-mineralized water, in the time that the specific conductivity of inner cold water is less than 1.3 μ S/cm, mend condensed water.

As shown in Figure 3, the method that hydrogen conductivity measuring unit 8 is measured inner cold water hydrogen conductivity is: in the time that hydrogen conductivity measuring unit 8 has just put into operation, in the hydrogen exchange post 8-2 of #1 and the hydrogen exchange post 8-7 of #2, it is all the variable color Zeo-karb of having regenerated, the inner cold water water sample #1 T-valve 8-1 that flows through successively, the hydrogen exchange post 8-2 of #1, #2 T-valve 8-3 and specific conductivity table 8-4, specific conductivity table 8-4 records the hydrogen conductivity of inner cold water, from the specific conductivity table 8-4 water sample out #3 T-valve 8-5 that flows through successively again, #4 T-valve 8-6, the hydrogen exchange post 8-7 of #2 and #5 T-valve 8-8 finally enter trench.

As shown in Figure 4, after the hydrogen exchange post 8-2 of #1 lost efficacy, by switching #1 T-valve 8-1, make water sample flow through the successively hydrogen exchange post 8-7 of #2, #5 T-valve 8-8 and specific conductivity table 8-4, specific conductivity table 8-4 records the hydrogen conductivity of inner cold water, enters trench from the specific conductivity table 8-4 water out #3 T-valve 8-5 that flows through again; Now the #1 exchange column 8-2 of inefficacy is taken off regeneration by operations staff, when the hydrogen exchange post 8-2 of the #1 having regenerated packs into after hydrogen conductivity measuring unit 8, by switching #3 T-valve 8-5, stop the water sample row trench out by specific conductivity table 8-4, and make water sample enter the hydrogen exchange post 8-2 of #1 through #4 T-valve 8-6, rinse the hydrogen exchange post 8-2 of #1; By the time when the hydrogen exchange post 8-7 of #2 lost efficacy, the hydrogen exchange post 8-2 of #1 has rinsed already, so switch to the hydrogen exchange post 8-2 operation of #1 by T-valve, hydrogen exchange #2 post 8-7 is taken off to regeneration, so repeatedly, just can realize the continuously measured of hydrogen conductivity.

Claims

1. an electric generator inner cooling water treatment system, it is characterized in that: comprise ammonium mixed bed (4), on the pipeline being connected with water cooler outlet conduit at ammonium mixed bed (4) entrance, be disposed with the first stopping valve (1), flow control valve (2) and under meter (3), export on the pipeline being connected with inner cold water case and be disposed with the second stopping valve (6) and resin catcher (7) in ammonium mixed bed (4), ammonium mixed bed (4) outlet be also provided with put into operation for ammonex (4) before the 3rd stopping valve (5) of water flush discharge, also comprise the hydrogen conductivity measuring unit (8) being arranged on the original conductivity measurement outlet pipeline of inner cold water system, between hydrogen conductivity measuring unit (8) and flow control valve (2), be provided with flow director (9), flow director (9) is accepted the hydrogen conductivity signal sending from hydrogen conductivity measuring unit (8), and according to the size of hydrogen conductivity, send conditioning signal to flow control valve (2), make the hydrogen conductivity of inner cold water maintain 0.4 μ S/cm～0.6 μ S/cm, under meter (3) is for showing by-pass flow treatment capacity.

2. a kind of electric generator inner cooling water treatment system according to claim 1, is characterized in that: ammonium type strong acid positive resin and hydrogen-oxygen type strong basicity negative resin that preset ratio mixes are housed in described ammonium mixed bed (4).

3. a kind of electric generator inner cooling water treatment system according to claim 2, is characterized in that: the volume ratio of the ammonium type strong acid positive resin of described preset ratio and hydrogen-oxygen type strong basicity negative resin is 1:2～1:4.

4. a kind of electric generator inner cooling water treatment system according to claim 1, is characterized in that: described hydrogen conductivity measuring unit (8) comprises the #1 T-valve (8-1), the hydrogen exchange post of #1 (8-2), #2 T-valve (8-3), specific conductivity table (8-4), #3 T-valve (8-5), #4 T-valve (8-6), the hydrogen exchange post of #2 (8-7) and the #5 T-valve (8-8) that connect successively;

The feed-water end of described #1 T-valve (8-1) is connected with water sample suction culvert, a water side of #1 T-valve (8-1) is connected with the entrance of the hydrogen exchange post of #1 (8-2) and a water side of #4 T-valve (8-6), and another water side of #1 T-valve (8-1) is connected with another water side of #4 T-valve (8-6) and the entrance of the hydrogen exchange post of #2 (8-7);

The feed-water end of described #2 T-valve (8-3) is connected with the outlet of the hydrogen exchange post of #1 (8-2), trench is directly arranged in a water side, and another water side is connected with the feed-water end of specific conductivity table (8-4) and a water side of #5 T-valve (8-8);

The feed-water end of described #3 T-valve (8-5) is connected with specific conductivity table (8-4) water side, water side row's trench, and another water side is connected with the feed-water end of #4 T-valve (8-6);

A water side of described #4 T-valve (8-6) is connected with the entrance of the hydrogen exchange post of #1 (8-2) and a water side of #1 T-valve (8-1), and another water side is connected with the entrance of the hydrogen exchange post of #2 (8-7) and another water side of #1 T-valve (8-1);

The feed-water end of described #5 T-valve (8-8) is connected with the outlet of the hydrogen exchange post of #2 (8-7), water side row's trench, and another water side is also connected with the feed-water end of specific conductivity table (8-4).

5. a kind of electric generator inner cooling water treatment system according to claim 4, it is characterized in that: the hydrogen exchange post of #1 (8-2) and the hydrogen exchange post of #2 (8-7) adopt transparent organic glass to make, changed resin 3/4 time when the variable color Zeo-karb in it loses efficacy.