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1. The measurement of the tan A is also difficult since the bushings should be separated from the transformer in most cases The evaluation of the result of the measurement should not depend solely on the absolute values obtained but on the values obtained each year and from the variation among them If there are large discrepancies in the values special attention is necessary 1ZCLO00002EG EN rev 1 8 17 When the insulation resistance is superior to 1000 MQ at normal temperatures it can be considered as good condition but the value of the tan also must be taken into consideration for the evaluation 6 3 Inspection due to excessive partial heatings The excessive heating of the terminals in most cases is due to loosening If this condition is observed eliminate the dust or dirt from the parts from contact and tighten firmly 6 4 Local damages inspection fissures on the bushings The cleaning of the bushings must be done according to what was mentioned If the damages are very serious it must be replaced with new ones 6 5 Inspection for oil leaks Check the various pieces of the bushings to see if there is any oil leaks If oil is leaking through the gasket tighten it or replace it If there are bushings of immersed in oil type and the oil leak is through other part of the bushing report it to the manufacturer 6 6 Storage Keep the bushings in a vertical position and in a dry place It is recommended to keep them in their or
2. The terminals of the spooled suffer damages by an excess of current external short circuit etc or by a lighting strike Also the short circuit accidents of the system that accumulate cause damages on the supports of the windings by their repetitive mechanical destructive force that finally break the terminals Short circuit to ground The impulse voltage or the deterioration of the insulation can cause a short circuit to the grounding of the winding or of its terminal to the core or to the tank The mentioned defects can be detected easily through an external diagnosis or an electrical monitoring b Defects in the core There are defects due to poor insulation of the tightening screws of the core or an oil cooling duct obstructed that cause excessive heating of the core The defects on the core develop slowly The insulation and the poor grounding contact already mentioned cause a partial short circuit current a deterioration of the oil of the insulation materials in their surroundings which gradually are converted into serious failures A poor or loose tightening between the core and the clamps of the windings can cause damaging vibrations 15 5 How to detect internal failures Use the different relays that the transformer has to detect and be protected of failures Next you can find which parts are used to protect the transformer from internal failures Those devices that are attached directly to the transformer an
3. fact that the deterioration of the oil is caused generally by the oxidation the method to prevent consists of reducing to a minimum possible its contact surface with the air That is why a conservator tank is used Moisture or humidity also accelerates the deterioration of the oil To avoid this it must be used a dehydrating breather The ideal method is the one that uses a nitrogen layer or a membrane on the surface of the oil to avoid that the oil be in direct contact with the air Dielectric oil is active under certain light conditions heat and heavy metal ions to produce free radicals that cause self oxidation To avoid this phenomenon use additives that stop any oxidation Evaluation of the deterioration of dielectric oil The methods to determine deterioration of dielectric oil are those that measure the degree of oxidation the specific density the superficial tension In addition it is common 1ZCLO00002EG EN rev 1 7 17 practice to measure the dielectric breakdown it is recommended to make an objective analysis of all these methods 6 Maintenance and inspection of the bushings 6 1 6 2 Routine inspection e Excessive local heating Pay attention to the clamping section of the terminals It is convenient to paint this section with heat indicating paint e Pollution When there is much dust and salt a clean up must be performed and to do so the transformer must be place out of service and use water ammonia o
4. has been eliminated the place where the leak is located it will appear clearly as a black stain When the leak is above the oil level load the nitrogen gas to an appropriate pressure approximately 0 3 to 0 4 Kg cm_ place a soapy solution on the suspected part of the gasket If there is a leak bubbles will be formed Be careful not to permit the operation of the pressure exhaust pipe during this operation e Treatment of tank leaks If the leak is on the tank that contains oil must be repaired by welding make sure that the heat from the welding is not going to produce an explosive gas mixture There is no need to take any cautionary steps in the case of nonflammable oil If the leak is some 70 mm or more above the oil level and if the thickness of the wall of the tank is greater than 6 mm there will not be danger of combustion since the oil will cool the heat of the welding If the part of the leak is above the oil level place nitrogen gas in the interior of the tank to prevent a fire 1ZCLO00002EG EN rev 1 13 17 If the thickness of the wall of the tank is less than 4 5 mm place a metal piece on top of the part of the leak and weld it It is better if there is no oil in the place of the repair The simplest way of repairing a small leak orifice is to caulk it carefully with a chisel Do not cover the small orifice of the leak with caulk or with painting since it will not last for long Do not repair a leak orifice
5. on the steel tank by welding or caulking it The part of the steel box will have to be replaced When it is not possible to puncture a hole in the place of the leak tap and introduce a stopper impregnated in shellac or other component If a leak is found on an important piece of the equipment consult with the manufacturer the adequate steps to take 15 Failures and countermeasures 15 1 Causes of the failure To track the cause of the failure is the first step to formulate its solution The origin of the defects is not simple Generally it is the combination of many factors that can be classified in the following way e Imperfection on the specifications Mistake in the selection of the type of insulation Not appropriate capacity Lack of attention to the conditions in the place of installation dampness temperature dangerous gases etc e Imperfection on the facilities Wrong installation Wrong capacity and protection range of lightning rods Switch and relay for protection is wrong e Imperfections on the operation and maintenance of the equipment External conducting parts loose and heating up of the same Deterioration of the insulating oil Excessive load or mistakes in the connection of the cables Mistake in the operation and carelessness in the arrangement of the protection circuits 1ZCLO00002EG EN rev 1 14 17 Insufficient inspection of the gaskets and valves Poor maintenance of the a
6. 1ZCLOOO002EG EN rev 1 User s Manual Operation and Maintenance for Power Transformers OPERATION AND MAINTENANCE FOR POWER TRANSFORMERS AIDED 1ZCLO00002EG EN rev 1 2 17 Table of contents Do IMtROMUCTIO p Pea a ecco cc EEE cheek sec E tec E A sete ce S 3 2 Maintenance and lines and bus bar inSpection ccsessseseeeseneeseeeeeeeeeeseeeeseees 3 3 Preventive maintenance program cscccseeeseeesesseeeseeeeseeeeseeeeeeseeeeseeeeseeneeeseeeeeeees 3 4 Periodicity of the inspections ssesssssussnunnnunnnnnnunnnnnunnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn annen 4 5 Maintenance procedures for the insulating Oil ssusssussnunennnnnnnnenunnnnnnnnnnnnnnnnnnnnne 5 5 1 Deterioration of the insulating Oil cceeseescceeeeeeeseesseeeeceeeceeeesessstaeeeeeeeeseeess 6 5 2 Preventing the deterioration Of the oil cccccccccceesessstteeeeeeeceeeesseeseeeeeeeesseeees 6 5 3 Evaluation of the deterioration of dielectric Oil ccceeceeeeeeeeeeeeeeeeeeeeeteeeseees 6 6 Maintenance and inspection of the DUSHINGS ssceseeseseeeseeeeseeeeeeneeeseeeeseees 7 6 1 Routine inspection cccccceeeeeeeeeeeeeeeeeeeeeeeeeeeeeceeeeeeeeeeeeeeeeesaaaaaaaaaaeaaaaaaaneeeees 7 6 2 Regular inspection Once every two years cccceeeececeeeeeeeeeeeeeeeeeeeeteeeeeseaees 7 6 3 Inspection due to excessive partial heatingS cecceeeeeeeeceeeeeeeeeeeeneeeeeeeees 8 6
7. 4 Local damages inspection fissures on the buShINGS c eeceeeeeeeeeeeeetees 8 6 5 Inspection for oil leaks ceeeeecceeeenceeeceeeeeeeeeeeeeeeeeeeeaeeseeseaeeeeeeeseeeesesneeeetenees 8 6 6 Stragen 2 eek hate as ee Bele ee a eee es ee nee ae ee heck 8 7 Maintenance and inspection of the cooling equipment cssseseseeeeeseeeeens 8 7 14 Self cooling type radiator cccceecceceeeecceeeeceeeceeeeceeeeeeeeeeeeeeesenaeeeeesseeeeeeseaees 8 8 Maintenance and inspection of the thermometelS cccssseeeeseeeeeeeeeseeeeeneees 8 8 1 Dial type thermometer eeeeeeeeeeeeeeeeeeeeeeeeeeeeceeeeeeeeeeeeeeeeesaaeeaaeeaaaeaaaaeaes 9 9 Maintenance and inspection of oil level gauge ccesesesseeeeseeeeseeeeeeneeeeneeeeeees 9 9 1 Oil level gauge dial tyPe ccc ccccccccceececeesssseeeeeeeeeceessesesseeeeeeeessseeeeeseaeeeeeeeeseeess 9 10 Maintenance and inspection of the buchholZ relay ssesessseesseeseteeeeeees 10 11 Maintenance and inspection of the overpressure ValVeS s ccsssesseeseeeeeeeees 10 12 Maintenance and inspection of the silica gel breathers sssssseeeeeeees 11 13 Maintenance and inspection Of gaskets ccsesccsssessseeesseeeseneeseeeeseseeeeseeeenseeas 11 13 1 Installation of gaskets c ccccceeceeeeececeeeeceeeeeeeeeeeeeeeecaeeeeeeeaceeeseneeeeeeseeeeees 11 13 2 Methods of joining or connecting gaske
8. a periodic inspection of the transformer and to indicate the steps that they should follow to effect a more detailed examination of the active part in case that is required ATTENTION If this is going to be used as a spare transformer in Stand by it will have to be preserved always in the best conditions Therefore its maintenance must be equal to the transformer in service special care must be taken in monitoring the condition of the oil The templates are intended to harmonize the visual impression of ABB Documentation throughout the organization Common Look amp Feel To provide help for editors to adopt Visual Identity guidelines related to documentation presented to our customers 2 Maintenance and lines and bus bar inspection The maintenance and the inspection are a dangerous work from there beforehand a detailed program must be developed placing special attention on the safety of the workers and of the equipment When working with bus bar lines terminal etc the work can only begin after confirming that these parts are not receiving any power verifying for this that the switches are in the open position something which can be checked with a detector for circuits The omission of these revisions thinking erroneously that the circuits do not have voltage can cause serious accidents 3 Preventive maintenance program Write down the readings from the meters or gauges that are generally installed These readings will be ver
9. ccessories e Abnormal voltage e Normal wear and tear e Natural disasters 15 2 Types of failures The failures produced by the causes mentioned above create secondary failures and of a third type hindering their tracking However the operating conditions in the moment of the failure the inspection records of the relays of protection of the various parts as well as the maintenance and the regular inspection will help to detect the cause in many occasions The defects of a transformer can be classified in the following way Internal failures of the transformer in core and coil Dielectric interruption Rupture and twist of the winding Mistake on the grounding Open connection of tap changer Insulating oil e External defects of the transformer In the tank Due to oil leaks in the gasket valve or weld cord Due to the bushings of the breathers over pressure valve thermometers oil level gauge etc Defects on the forced cooling fans Buchholz Relay exit of the current transformers of the bushings etc 15 3 Discovery of the failures It is unnecessary to say that the sooner a failure is detected the better for the transformer and it requires a careful and detailed maintenance and inspection there are procedures made for the regular inspection and of routine By means of this inspection a failure can be detected before it becomes serious and reduce any damage in whatever possible Some defects are cau
10. curbed surface of the common transformer cork or nitrile is used even though the cork no longer is employed For some unions special lead or asbestos gaskets or O rings are used if the type of gasket is indicated it must be used following the instructions 1ZCLO00002EG EN rev 1 12 17 13 2 Methods of joining or connecting gaskets It is better to use the gasket without a joint but this can not be avoided when the gasket is too large There are round gaskets square rectangular and oval shaped but in any case try to join the gaskets by using a flat portion of the gasket The part that overlaps must measure more than 50 mm and must apply an adhesive to the union When using an element or a component to seal make sure of selecting the material adapted for the gasket apply a thin layer and let it dry with air and then place the gasket 13 3 Work instructions To remove corrosion nitrile oil or the grease use a wire brush thinner and alcohol Apply the adhesive only to the side of the gasket and use only the necessary amount to attach it to its place If the gas or oil leak is not stopped after correct adjustment the gasket will have to be replaced with a new one A gasket with low elasticity such as lead type must always be changed with a new Do not use the old one again 14 How to detect a leak When the leak is below the oil level wash first with thinner or alcohol the affected part and once the dust or the cement
11. d detect failures mechanically Buchholz Relay pressure rise relay pressure relief device Those devices that are indirectly joined to the control cabinet which detect failures electrically Differential Relay overcurrent relay ground current relay PR ae ap Copyright 2007 ABB All rights reserved Document Title User s Manual Document No Date amp Rev Ind No of Pages Page 1ZCL000002EG EN 1 17 17
12. eating up which can lead to serious defects Poor insulation due to a harsh operational condition such as excessive load According to what was mentioned in the instruction manual the insulation of the transformer deteriorates by the increase in the temperature and this deterioration over the years worsens and is converted into a serious failure when the transformer suffers an excessive load Deterioration of the insulation materials such as oil bushings etc due to moisture absorption to oxidation and to formation of a partial discharge etc Deterioration of the external insulation of the transformer due to wind snow salt and dust This can be prevented with the correct inspection and maintenance Defects in the accessories oil leak gas leak etc 1ZCLO00002EG EN rev 1 16 17 15 4 Internal defects of the transformer a Defects in the winding Short circuits There are short circuits between the turns between the phases and between the windings Most short circuits failures are caused by abnormal tensions on the surge arresters and others because of the deterioration of the insulation oil and to the penetration of rain Also some short circuits are caused by the deterioration because of heat caused by an electromagnetic mechanical force or by an abnormal excessive load Generally as secondary effect internal short circuits cause serious deformations to the windings Breakage of the terminals of the winding
13. he radiators Because of this it is required that it complies with the following characteristics e High dielectric breakdown e Low viscosity e Well refined and free of materials that they may corrode the metallic parts e Be free of moisture and polar ionic or colloidal contaminants e To have a low pour point e Low flash point The manufacturing techniques for transformers and their reliability have been improved to such degree that the internal inspection is almost unnecessary currently the maintenance is limited almost exclusively to the maintenance of the oil to prevent its deterioration Deterioration of the insulating oil The insulating oil deteriorates gradually with use The causes are the absorption of the moisture from the air and foreign particles that get into the oil and start to cause oxidation Oil is oxidized by the contact with the air and this process is accelerated by the increase in the temperature in the transformer and by the contact with metals such as copper iron etc In addition the oil suffers a series of chemical reactions such as the decomposition and the polymerization that produces particles that are not dissolved in oil and that are collected in the coil and windings These particles are called sediments The sediments do not affect directly the dielectric breakdown but the deposits that are formed on the winding hinder its normal refrigeration Preventing the deterioration of the oil Due to the
14. iginal packaging 7 Maintenance and inspection of the cooling equipment The cooling equipment is the most important part in the normal daily operation of a transformer It is necessary a special care for its maintenance and inspection since any abnormality can reduce the useful life of the transformer or cause serious defects 7 1 Self cooling type radiator Check oil leaks from the upper ends of the radiator and the welded parts of the panel or from the pipe If there are any sediments accumulated in the radiators elements or in the pipe the flow of oil is hindered and the temperature drops For this reason check by hand if these parts have the adequate temperature If the radiators are detachable check that the valves are open correctly 8 Maintenance and inspection of the thermometers 1ZCLO00002EG EN rev 1 9 17 It is important to check the temperature of the transformer in service since this indicates the conditions of operation The internal conditions and the normality of the interior therefore the indicators that measure the temperature should be checked and be maintained in good conditions so that they indicate correctly the temperature 8 1 Dial type thermometer This is a form of pressure measuring device with a bulb that contains a special liquid or sealed gas It is connected with a very fine pipe to move the needle by expansion and contraction of the fluid it must be verified comparing it with a normal ther
15. mometer once per year or more often Also it must be checked carefully that it is free of rust in the inside that water won t get in that the needle moves adequately and that the alarm contacts operate correctly If the crystal is blurred by moisture that gets inside remove the lid from the crystal and change the seal After many years of use the pipe of Bourdon wears out the same as the sprocket and the support leading to wrong readings also the movable indicating parts may fall because of blows or vibrations The guiding pipeline generally is double and the connection with the measuring device is separated or is broken easily Therefore it is necessary a careful handling of the dial type thermometer if it is to be removed during the inspection of the transformer Check that the alarm contacts have been made adequately 9 Maintenance and inspection of oil level gauge The gauge is placed outside the conservator and it is of simple construction it shows the level of the oil directly being able to see it from the outside Pay attention to any oil leak that may be visible When the crystal is dirty you can wipe it off with a rag The oil meter is resistant to damages and to inaccurate readings compared with older models of oil level type L and type U 9 1 Oil level gauge dial type In this gauge the revolving axle has on one end a floatation device that supports an arm connected to the gauge and on the other extreme a magne
16. ps have loosen up d Loosening of the grounding plates and e Abnormal noise by static discharge due to lacking grounding plates or poor grounding These noises can be detected from outside the tank even though they will not be very loud e Loosening of the fixing pieces and the valves When grounding terminals are found to be loose de energize the transformer and tighten them immediately The screws of the foundations that are subject to large loads must be tighten firmly to avoid the displacement of the transformer In some instances the valves are loosened due to vibrations tight them again e Oilleaks Oil leaks can be caused by the deterioration of some gaskets or they are in the wrong position it takes some time to discover them check carefully the valves and the gaskets If there are any defects that could cause a leak report it to ABB 4 Periodicity of the inspections The table 1 that appears below shows the frequency that the transformer must be checked 1ZCLO00002EG EN rev 1 5 17 No Pieces to survey Periodicity Observations 1 Thermometers once per year Verify the operation f conditions of the Accessory with contacts and 2 alarm contacts once per year and or shut off measure the insulation resistance of the circuit If an anomaly is 3 Cooling fans once per year found 4 Conservator once every five years When a sharp change after years Insulation of
17. r carbon tetrachloride If they are very dirty use concentrated hydrochloric acid diluted 40 or more times in water The solution should not be in contact with any metallic part after the cleaning the porcelain parts these must be neutralized with water that contains sodium bicarbonate in a proportion of 30 grams by liter As long as it uses a chemical solution make sure of washing it after with fresh water so that no strange elements are left In systems in which will be difficult to stop the operation of the transformer for cleaning or in zones where there are many damages by the dust or the salt it is being using recently a washing method designated of hot line It is a method to wash the equipment without stopping its operation and there are 2 or 3 forms of doing it In any case it must be verified the degree of dust and salt the quality of the water to wash and the method of waterproofing when the cleaning is done e Mechanical damages Check if there are any damages or oil leaks in the bushings Regular inspection Once every two years e Evaluation of the deterioration of the insulation The methods to detect the deterioration of the insulation are the measurement of the insulation resistance and tan A The measurement of the insulation resistance in the bushings is not simple since the bushing and the winding of the transformer should be independent nevertheless the measurement must be made the best way possible
18. rior and verify if the flotation device is moving freely with the support arm as its rotation center to regular intervals The relay can operate incorrectly when the float is submerged in oil when the support shaft of the flotation device is left out from the joint or there is an oil leak 11 Maintenance and inspection of the overpressure valves 1ZCLO00002EG EN rev 1 11 17 The overpressure relief valve with contact alarm triggers the alarm when the needle of the switch moves It is placed by making contact with the expansion plate the adjustment spring and the contacts of the micro switch are in relation with the elevator that is related at the same time with the interrupter s needle When there is an accident the internal pressure increases and pushes the valve out making the needle of the switch move and then it pushes and bends the expansion plate When the pressure reaches a certain limit the expansion plate is broken and the pressure is released closing shutting off the contacts of the micro switch that are in the step up that is related to the needle of the switch and the alarm sounds Verify there is no oil leak or air coming out from the device 12 Maintenance and inspection of the silica gel breathers These devices are made to eliminate any moisture and dust that enters the transformers with the air flow resulting from the fluctuation in temperature of the oil from the transformer it is placed between the air d
19. sed by reasons beyond human control Such as e Sudden failures 1ZCLO00002EG EN rev 1 15 17 Most of the dielectric interruptions occur suddenly especially due to lightning or to an abnormal tension causing a direct failure Excessive current by an external short circuit or by a mechanical hit also happen suddenly Disturbances by earthquakes and fires can accidentally damage the transformer e Defects that develop slowly Sudden defects are related generally to totally external or foreign factors to the transformer of such form that it is outside of our scope the power to foresee them and to prepare us to face these The objective of our maintenance and inspection is to discover the defects that occur and that may develop slowly These defects are the following Deformation of the insulation materials and of the windings due to mechanical blows caused by an external short circuit The transformer generally is designed and is manufactured to resist the heat and the mechanical blows However if it is exposed to frequent and intensive mechanical blows even a small deformation can be converted into a serious internal defect Insulation of the core There can be poor insulation between the sheets of the core between the tightening screw of the core and the insulation pipe etc The poor insulation cause a short circuit in the magnetic flow producing a constant short circuit current flow in this place and generating excessive h
20. t to make to the rotor turn and to allow an upward and downward movement of the floatation device When the level of the oil changes this triggers the support arm that makes the magnet turn in the other extreme and at the same time it triggers the rotor through the division wall that it is outside the gauge The needle indicates the oil level The gauge needs the same maintenance that any ordinary instrument furthermore as it comes with a metallic floating device It requires close attention when there is an 1ZCLO00002EG EN rev 1 10 17 inaccurate reading due to any leakage of oil into the flotation device or by vibrations and above all when it has been in used for a long time 10 Maintenance and inspection of the buchholz relay This relay is made to protect the oil immersed transformer against internal defects It is attached to the connection pipe between the tank of the transformer and the conservator The operation of the relay is divided into a first phase minor defects and a second phase for severe defects the first is used for the alarm and the second for the shut down of the transformer Its structure presents two flotation devices one in the upper part and other in the lower part of a steel box oil chamber and they are fixed in such a way that each floatation device can turn being their rotation center the support beam or axle Each flotation device has a switch and the contacts are closed when the flotation de
21. ts c ccceeeeceeeeeeceeeeeeteeteeeeeseeeeees 12 TIS WOrk INStFUCTIONS fee as eae tee ea dee eae A aie Sides 12 14 How to detect a lak aar rrea a eraa aprepara are a ade andma i maaa Aa oaaao da aaae AaS dapa iet 12 15 Failures and countermeasures sssssssssunnsnnnnnennnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn nnmnnn 13 15 1 Causes of the failUre ccceceeccceeeecceeeeeeeeeeeeeeeeeeeeeeeeaeeeeeceaeeeeeseneeeetsneeeeees 13 15 2 Types of failures ccccccccccceccceesseesneeeeeeeeeeessceeseeeeeeeeeeeeeseseeeseeeeeeeeeeeeesesetaeees 14 15 3 Discovery of the failures ccccccceeeeececeeeeeeeceeeeeeeeeeeeeeeeeeeeeeeaeeeeseseneeeeseneeeees 14 15 4 Internal defects of the transformer cccccccceeeeecceeeeeeeeeeeeeeeeeeeeesenseeeessneeeees 16 15 5 How to detect internal failures cece ccccccccsseeeececceseueeeeeseseeseaeeeeeeeeeeeuaaes 17 1ZCLO00002EG EN rev 1 3 17 1 Introduction The transformer requires less care compared with other electrical equipment The degree of maintenance and necessary inspection for its operation depends on its capacity on the importance within electrical system the place of installation within the system on the weather conditions and the general operating conditions In this part of the manual the operating instructions and maintenance is supplied Our intention is to provide the necessary assistance to the maintenance personnel to facilitate
22. uct of the transformer and the atmosphere It is formed by a deposit of a dehydrating agent and oil as well as the attaching metal parts for its fixture The gasket must be checked to see if it is secured so it will not allow air from entering the transformer by any other space other than the vent hole Also check the oil level of the deposit is not below the pre established level If the dehydrating agent becomes impregnated with oil it is because there is too much oil in the deposit or because there is an internal failure which cause must be detected Silicon gelatin is used as the dehydrating agent Generally it is dyed blue with cobalt chloride and when the moisture absorption reaches a 30 or 40 the color changes from blue to pink In this case the silicon gelatin must be replaced or dried before reusing it To regenerate the silicon gelatin place the silicon gelatin in a bucket or in a clean pot and shake it while it is heated up at a temperature of 100 to 140 C Continue heating it until the color changes from rose to blue or spread the wet silicon gelatin in a container such as a filter box for 4 or 5 hours maintaining the temperature between 100 and 140 C 13 Maintenance and inspection of gaskets 13 1 Installation of gaskets When using a gasket follow the instructions supplied by the manufacturer but in case that are not supplied the following instructions can be followed for general cases For the gaskets on the
23. use is noted or 5 resistance of the once per year when a change in winding comparison with data registered in previous tests Measurement of Once in thre 6 the tan A just as the point 5 years Oil s breakdown 7 once per year value 8 Value of acidity of once per year the oil 9 Test of the Check if there is Take two liters of functioning of the any abnormality oil and check them oil noted in the tests according to of items 5 to the 8 ASTM D3487 10 Filtered insulating Check if there is oil any abnormality noted in the tests of items 5 to the 8 11 Inside once every seven Components years Table 1 Periodicity of the inspections 5 Maintenance procedures for the insulating oil To maintain the transformer in perfect operating conditions keep in mind the previous items also about the routine operation and not forgetting to give the proper treatment when some change in the service conditions is noted It is necessary also to de energize the transformer regularly and conduct a meticulous inspection With this routine and with regular inspection the degree of deterioration will be minimized Since a transformer is made of many parts such as the insulating oil the cooling equipment etc must be checked permanently Oil in addition to serving as insulating means serves to transfer the heat generated in the windings and the core 1ZCLO00002EG EN rev 1 6 17 5 1 5 2 5 3 toward the walls of the tank and t
24. vice turns If the organic structural materials of the transformer are burnt or produce a gas caused by a small flash over this will remain in the internal upper part of the box When the volume of the gas surpasses the fixed volume approximately 150 to 250 cc the flotation device of the first low phase and the contacts are closed triggering off the alarm system The lower floatation device that is for the second phase closes the contacts and sets off the alarm system or turns off the circuit switch when an arch is originated in the interior of the transformer and gas and oil vapors are produced quickly forcing the movement of the oil Also if the oil level drops below the permissible minimum level of the conservator the alarm system goes off On one side of the box of the Buchholz relay there is an inspection window that allows to observe the volume and the color of the gas produced and to extract samples to evaluate the cause and the degree of the failure The modern Buchholz relay comes with micro interrupter magnetic contacts Also today there is a whole array of relays with mercury contacts The mercury contacts should be handled with extreme care since they can be broken when there are vibrations As a routine examine for oil leaks and the gas production from the relay If gas is found take a sample and have it analyzed also verify the oil level in the conservator Clean the crystal from the inspection window check the inte
25. y useful If the readings are very different from the ones obtained in normal conditions it is necessary to perform a careful revision In addition pay close attention to any abnormal signs such as noise color change or smells e Transformer s temperature The temperature of the transformer is directly related to the life span of the insulating materials therefore it is necessary to pay close attention 1ZCLO00002EG EN rev 1 4 17 In the case of transformers built according to procedures ANSI the maximum temperature permitted for oil is of 90 C and the maximum temperature of the hottest point is 110 C e Inspection of oil volume The volume of the oil has to be verified from the point of view of the insulation and from the refrigeration If the oil level fluctuates notoriously in relationship to the temperature the cause must be determined for proper repair e Noise In some instances some abnormal noise can be perceived when you or the operators are being familiarized with the noise that the transformer produces during its normal operation which can help to discover some defects The following are the possible causes of abnormal noise a Resonance of the box and of the radiators due to abnormal changes in the frequency of the source of current b Defect in the adjustment mechanism of the cores c A defect in the central structure as loosening of the core is possible that the tightening screws of the clam
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