CH636737A5 - METHOD AND DEVICE FOR DETERMINING COOLING WATER LEAKAGE ON ELECTRICAL MACHINES. - Google Patents

Description

The invention relates to a method for determining cooling water leaks on at least in the stator water-cooled windings of electrical machines by moisture measurement within the closed machine housing, in which a hydrogen-gas stream cooled by recooler is additionally circulated, in which to generate and maintain a steady state of moisture Gas flow within the machine housing, the dew point is determined by a separate heat sink in the area of the cooling gas flow and moisture changes deviating from the stationary state are then measured, as well as a device for carrying out the method.

In such a method, a steady state of moisture is first created for the cooling gas flow, so that any changes in moisture that may occur can then give a clear conclusion about cooling water leaks. In addition to the determination of refrigerated wagons, this method also largely avoids moisture precipitation on endangered machine parts. The leaks that can be detected via the moisture changes can occur in the water-cooled windings of the electrical machine, i.e. occur in the water-cooled stator winding or, if applicable, in a water-cooled rotor winding. In addition, however, leaks in the cooling coils of the recoolers for the cooling gas can also be detected. It is not possible to say whether a leak is due to leaks in the windings or the recoolers.

The invention is therefore based on the object of improving the aforementioned method in such a way that any leaks which may occur in the water-cooled windings can be detected separately.

According to the invention, this object is achieved by

that an easily detectable indicator is added to the cooling water for the windings and that the condensate formed in the heat sink is monitored for the presence of this indicator. Leakages that may occur in the water-cooled windings are recorded here by the changes in moisture that deviate from the stationary state and the indicator present in the condensate. If there is no indicator in the condensate, a leakage which has been found can be attributed to other causes, in particular to leakages in the recooler. The method according to the invention thus enables a clear statement to be made as to whether there is a leak in the water-cooled windings of the electrical machine. Since the cause of the event must be known in order to remedy a fault in time, to limit damage or to remedy a damage, such a statement about the origin of the leakage water is extremely important.

From DE-PS 2154979, a device for determining leaks in the cooling water circuit of electrical machines is already known, in which a feed device for a radioactive isotope in the form of tritium as an indicator is connected to the supply line for the cooling water. In addition, an exhaust pipe for a partial flow of the cooling gas flow with an isotope counter is connected to the machine housing, so that the tritium escaping into the cooling gas in the event of a leak can be determined using the isotope counter. This known device is not suitable for the separate detection of leaks in different cooling water circuits. In addition, the indicator added to a cooling water circuit can be detected much more easily in a condensate when a leak with a low leak rate occurs than in the cooling gas.

In the method according to the invention, chemically or physically easily detectable substances can be used as indicators. For example, a fluorescent dye could be used as an indicator. However, a radioactive substance is preferably used as an indicator. A radioactive isotope in the form of tritium is particularly suitable as an indicator, since the tritium is physiologically harmless in the specific activity present when it is used and can be easily detected even in the smallest amounts.

The invention also provides a device for carrying out the method according to the invention, with an external gas dryer arranged as a heat sink parallel to the cooling gas flow and a moisture measuring device, which has a feed device for the indicator connected to the cooling water circuit for the windings, a condensate collecting container connected to the gas dryer and has a detector arranged in the condensate collector and responsive to the indicator. Using the infeed device and the detector, the separate detection of leaks occurring in the water-cooled windings is made possible with little expenditure on equipment. A scintillator is preferably used as the detector. With radioactive substances as an indicator, the scintillator also enables a quantitative statement about the amount of the indicator contained in the condensate. This quantitative statement can then also be used to determine whether, in addition to a leak determined in the windings, at the same time elsewhere, e.g. There is another leak in one of the dry coolers.

An exemplary embodiment of the invention is explained in more detail below with reference to the drawing. Here, the drawing shows a highly simplified schematic representation of a

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636 737

A longitudinal section through a generator with the basic status display can be made automatically. In a

Circuit diagrams of the cooling arrangements. another bypass line 26 to the cooling gas circuit is a humid

As can be seen from the drawing, are arranged in the pressure measuring device 27, with which fluctuations in moisture

and gas-tight housing 1 of the generator that gene and absolute sizes can be determined. Are with stator core 2 with the water-cooled stator winding 5 using the moisture meter 27 from the stationary moisture supply

3 and the rotor 4 arranged. The runner 4, which measured a change in moisture levels, so

Shaft 5, driven by a turbine (not shown in more detail), can detect a leak in one of the two cooling water circuits and, as will be explained in more detail later, can be concluded.

should also be water-cooled. For additional cooling The moisture measurement can be used to determine the stator core 2 and other machine parts to determine whether there is a leak. A statement about it, filled in case 1 with hydrogen as the cooling gas. This cooling gas, which cooling water circuit has a detected leak, is located via the fans 6 and 7 arranged on the shaft 5, but is not yet possible here. Such a circulated and in the statements at the ends of the generator would be important, however, since occurs in the windings

of the housing 1 arranged cooler 8 recooled. The leaks that must be taken particularly seriously and are too

Cooling gas flow for the recooled gas can lead to consequential damage.

solid arrows 9 and for the warmed branch of the cooling gas flow in the first cooling water circuit of the windings indicated by dashed arrows 10. Leakage occurring from elsewhere Lek-To dissipate the heat loss, two separate kagen can be distinguished, the primary water of the cooling water circuits is provided. In the first cooling water circuit, the first cooling water circuit is mixed with an indicator and the so-called primary water is monitored by a water supply 20, the condensate formed in the gas dryer 20 to the preparation plant 11 via a feed line 12 of a ring line of this indicator. For this purpose, 13 is fed, from which the individual waveguides of the stator line 17 are connected to a feed device 28, to which winding 3 the primary water is applied. This is added via the radioactive tritium as an indicator to the primary water. On the other side of the stator core 2. However, the supply of the tritium of the stator winding 3 flowing out primary water via a 25 also at any other point within the first cooling water further ring line 14 and a drain 15 into an above circuit is possible. If there is a leak in the stator winding of the housing 1, the cooling water expansion vessel 3 then passes the tritium via the cooling gas into the condenser-16. This cooling water expansion vessel 16 becomes sat 22 and can be detected there. For the detection of the primary water then via a line 17 to the water of the tritium, a scintillator 29, which comprises a cooler and pumps, is expediently arranged in the condensate sametreatment system 11, which at the same time is not shown in detail emits signal indicated by arrow 30. With a help from there again in the circuit of the stator winding 3. of the moisture measuring device 27 indicates this leakage. In the second cooling water circuit, the so-called second signal 30 provides information as to whether tritium is present in the condensate 22 from the individual cooling coils 18 of the cooler 8, i.e. whether the leak found is directed in the first. As is indicated in the drawing, the 35 cooling water circuit can be located.

second cooling water circuit also in several sub-circuits As mentioned earlier, can also be divided. The cooling and conditioning of the secondary rotor 4 of the generator with a water-cooled winding water is not shown here. be equipped. In this case, the

So that a supply line 12 of the primary water possibly occurring within the housing 1 via a branch line 31 and leakage in one of the two cooling water circuits can be identified early on the cooling water connection head 32, part of the primary water is inside the housing 1 4 introduced and after flowing through the rotor-conventional moisture state of the cooling gas, so that winding via the cooling water connection head 32 from the Läu - then a moisture measurement for detecting cooling water 4 is discharged again and leads to clear results via a further line 33 in the serleckagen . For this purpose, the cooling water expansion vessel 16 must be introduced together with the place in the form of a stator cooling water supplied to the drain 15 via the cooling gas circuit. Heat sink is created, which is the coldest point of the leak. Also in this case there is a leak in the winding of the rotor 4 system and thus defines a defined dew point or - as already described - in the stator winding 3, which in no case of operation by other machine parts Corresponding signal 30 of the scintillator 29 can be reached. For this purpose is shown in one.

Bypass line 19 to the cooling gas circuit, a gas dryer 20 50 With the aid of the invention, any leaks can therefore be provided with an evaporator 21 of conventional design, fixed within the housing of an electrical machine.

at which the moisture condenses in a defined manner and is configured as a constellation, with leakages in densat 22, which are to be taken particularly seriously, separately via a line 23 into a condensate collector, the stator winding or the rotor winding

container 24 is performed. This condensate collection container 24 shows. By early detection of such

can be emptied from time to time via a drain valve 25, but further damage to the machine can be prevented, the emptying being prevented with a corresponding level.

1 sheet of drawings

Claims (5)

636 737 1.Method for determining cooling water leaks on at least in the stator water-cooled windings of electrical machines by measuring moisture in the closed machine housing, in which a hydrogen-gas stream cooled by recooler is additionally circulated, in which the generation and maintenance of a steady state of moisture in the gas stream within the machine housing Dew point is determined by a separate heat sink in the area of the cooling gas flow and then moisture changes deviating from the stationary state are measured, characterized in that an easily verifiable indicator is added to the cooling water for the windings and that the condensate formed in the heat sink is monitored for the presence of this indicator . 2. The method according to claim 1, characterized in that a radioactive substance is used as an indicator. 2nd PATENT CLAIMS 3. The method according to claim 2, characterized in that a radioactive isotope in the form of tritium is used as an indicator. 4. Device for performing the method according to one of claims 1 to 3, with an external gas dryer arranged as a heat sink parallel to the cooling gas flow and a moisture meter, characterized by a connected to the cooling water circuit for the windings feed device (28) for the indicator, one with the Gas dryer (20) connected condensate collection container (24) and a detector arranged in the condensate collection container (24), which responds to the indicator. 5. Device according to claim 4, characterized in that the detector is a scintillator (29).