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What is Oil Immersed Transformer?

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    The company has strong technical strength, has more than 50 professional and technical personnel, and has formed a technical team with technicians, engineers, and chief engineers responsible for each level.

    This article explains in detail the structure of oil immersed transformer, the difference between oil immersed transformer and dry-type transformer, oil-immersed transformer specification, common faults of oil-immersed transformer and its solutions.

    As a transformer manufacturer that has passed IEEE, CSA, ANSI and other standards, Dazheng has more than 10 years of experience in the production and design of oil immersed transformers.

    Can help you order transformers quickly and provide you with the most efficient solution.

    Oil Immersed produced by Dazheng has been recognized by the majority of users for its low energy consumption and high efficiency.

    They are widely used in Canada, the United States and other countries.

    A professional installation team can arrive at your place of use to provide you with professional services.

    What is Oil Immersed Transformer?

    There are many types of transformers currently used, mainly oil-immersed and dry-type transformers.

    No matter what kind of transformer, its internal basic structure and working principle are the same.

    The oil-immersed transformer is to change the voltage level, use the principle of electromagnetic induction, and control the number of turns of the transformer to achieve the rise and fall of the voltage, in preparation for further transmission and use of electric energy.

    Generally, the main transformer of the booster station is oil-immersed, with a transformation ratio of 20KV/500KV, or 20KV/220KV.

    Generally, power plants are used to drive power plants with their own loads (such as coal mills, induced draft fans, air supply fans, circulating water pumps, etc.).

    The factory transformer is also an oil-immersed transformer, and its transformation ratio is 20KV/6KV.

    Oil-immersed transformers are widely used in the current power industry, and their operating conditions are directly related to the quality of power supply.

    How Does An Oil Immersed Transformer Work?

    There is an iron core in the oil immersed transformer, and two mutually insulated windings are wound around the iron core.

    Among them, the side connected to the power supply is called the primary winding, and the side that outputs electrical energy is called the secondary winding.

    When the AC power supply voltage is applied to the primary side winding, an AC current flows through the winding, and an alternating magnetic flux is generated in the iron core.

    This alternating magnetic flux not only passes through the primary winding, but also passes through the secondary winding, and induced potentials E1 and E2 are generated in the two windings respectively.

    The ratio of the induced electromotive force on the primary and secondary sides of the transformer is equal to the ratio of the turns of the primary and secondary side windings.

    Therefore, when the number of turns of the primary and secondary windings of the transformer is different, the voltage can be transformed.

    Compared with ordinary transformers, the cooling method is slightly different.

    During the operation of oil-immersed power transformers, the heat of the windings and iron cores is first transferred to the oil, and then to the cooling medium through the oil.

     

    What Does the Model of The Oil-immersed Transformer Mean?

    The models of oil-immersed transformers are from left to right:

    Product model letters: D-single-phase, S-three-phase, F-air cooling, Z-on-load voltage regulation;

    Performance level code: 9, 10, 11, 12;

    Special purpose or special structure code: M-fully sealed, R-rolled iron core;

    Rated capacity kVA;

    Voltage class kV;

    Special use environment code: GY-plateau, WF-anti-corrosion, TA-dry tropical, TH-warm tropical;

    What Are the Characteristics of Oil immersed Transformers?

    Oil immersed transformers have a wide range of applications, both indoors and outdoors.

    The main features of oil-immersed transformers are as follows:

    (1) Most of the oil immersed transformers use cylindrical structure windings.

    Except for small-capacity transformers, most of them are made of copper wire, and the pie structure is mainly used for high-voltage windings.

    This structure can balance the ampere-turns distribution of the windings in the transformer to a certain extent, reduce the leakage magnetic flux, improve the mechanical strength, and also improve the short-circuit resistance.

    (2) The iron core and windings should be reinforced and tightened.

    Since the transformer has to withstand possible short-circuit faults in the power system and vibration during transportation, the body of the transformer must be fastened.

    (3) The fuel tank adopts the structure of barrel type and bell type.

    It is necessary to avoid the infiltration of oxygen, moisture and other substances, effectively isolate the contact between the transformer and the external environment, and play a sealing role.

    It is also necessary to meet the influence of oil volume changes due to temperature changes and sufficient mechanical strength.

    How to Judge Whether the Oil Immersed Transformer is Aging?

    After the oil immersed transformer runs for a period of time, during the operation, due to many external effects such as electric field, humidity, temperature and mechanical force, the aging of the transformer insulator will be accelerated.

    At present, the degree of polymerization of oil immersed transformer insulating materials is the most important basis for judging the aging degree of transformer insulation.

    In practical work, the average degree of polymerization of insulating paperboard is mainly used to judge the aging degree of Oil immersed transformers.

    At present, we use the following standards:

    Life-level indicators:

    When a short circuit occurs on the outside of the Oil-immersed transformer, the tensile strength of the insulating paper will decrease to 60% of the initial value;

    The danger level refers to the reduction of the maximum tensile strength of the Oil immersed transformer to 15% of the initial value.

    DP Failure Probability Criteria for Insulating Paper Fibers:

    DP≥450, failure probability = 0;

    450 > DP≥250, failure probability = ( 450 – DP) /200;

    250 > DP, failure probability = 1.

    Estimating Transformer Remaining Life with Average DP

    That is, n L/n0 = ( 1 – r) L, where n0 is the average DP starting value;

    n L is the mean DP after L; L is the number of years, a; r is the mean DP decline rate.

    Aging Characteristics and Repairability of Oil-immersed Transformer Structural Materials

    Large-scale power transformers generally use oil-paper insulation structure, while solid insulation has irreversible aging characteristics, and its performance status has a decisive impact on the operating life and maintenance strategy of the transformer.

    Under the influence of physical aging, mechanical equipment and mechanical parts will experience obvious mechanical failures.

    According to the use and maintenance characteristics of mechanical equipment, summarizing the basic laws of mechanical failures, analyzing the basic characteristics of mechanical failures, is conducive to the correct choice of maintenance methods for mechanical equipment.

    At present, oil-paper insulation structures have been widely used in the design and production of large power transformers.

    During operation, it has been subjected to electrical, thermal, mechanical and chemical stresses, and its performance is continuously degraded, which may easily lead to unplanned power outages or even catastrophic accidents.

    Insulating oil can improve its insulating properties by filtering or replacing the transformer during its service, and the transformer cardboard has irreversible aging characteristics.

    Therefore, the life of the transformer largely depends on the electrical and mechanical properties of solid insulating materials such as insulating cardboard.

    The insulation of the transformer is mainly made of oil paper, that is, the insulating paper is impregnated with insulating oil, so that the air gap between the fibers of the insulating paper can be eliminated, and the electrical strength of the insulation can be effectively improved.

    Power transformer insulation paper is often used for power cable paper, high-voltage cable paper and transformer turn insulation paper, insulation of transformers and other electrical products; high-voltage cable paper is generally used for 11 ~ 33kV transformer and transformer insulation;

    Transformer turn insulating paper is a better electrical insulating paper for 500kV transformers, transformers and reactors.

    Why does the oil-immersed transformer leak oil where it should not be stressed?

    The oil conservator bracket of the oil-immersed transformer is mostly bent from flat steel.

    During installation and transportation, the height and position of the oil conservator are suitable for the operation and movement of the entire transformer.

    Therefore, it is easy to cause the flange from the oil conservator to the oil tank cover to be overstressed, as shown at A in the figure, the oil leaks due to the cracked weld.

    And because such small transformers are often installed on the bench, when other installations are carried out, they are stepped on the oil conservator, which will also cause oil leakage from the connecting pipes and flanges.

    What are the types of faults of oil-immersed transformers?

    During the operation of the oil-immersed transformer, the electric field and the magnetic field continue to stagger for a long time, interfering with each other, and the accumulation of quantity produces a qualitative leap, that is, the continuous accumulation of internal performance will lead to the failure of the transformer.

    The faults of oil-immersed transformers are mainly divided into thermal faults and electrical faults.

    Method of Fault Diagnosis of Oil-immersed Transformer

    The fault diagnosis method of oil-immersed transformer is to analyze the acquired fault information of the transformer, and judge the fault type of the transformer with the result of the data analysis.

    In this process, the accuracy of the collected information plays a crucial role in the accuracy of fault diagnosis.

    There are six types of diagnostic methods for transformer status in actual engineering: oil chromatography analysis method, partial discharge method, infrared temperature measurement method, electrical test method, oil chemical test method and winding deformation test method.

    The most basic method proposed by Algorithms is oil chromatography, which is an effective method for judging transformer faults.

    The rest of the methods are based on oil chromatography to expand analysis and research.

    Transformer fault inspection steps

    Visual inspection of the Oil-immersed Transformer

    Check whether the transformer is disconnected, soldered, and desoldered, and whether the insulating material is burnt or damaged. Whether there is burnt smell or smoke after power-on;

    Winding on-off or short-circuit inspection

    Use a multimeter to check the continuity of the winding. To check whether the winding is short-circuited, a light bulb can be connected in series with the winding. Its voltage and power are determined according to the voltage capacity of the power transformer. No circuit breaker;

    Insulation resistance inspection

    Use a megohmmeter to test the insulation resistance between the windings, between the windings and the iron core, and between the windings and the casing, and the value should be above 1M;

    Check the rated working voltage

    Connect the rated voltage to the primary winding of the Oil-immersed transformer, measure the no-load voltage on the secondary side, the general error is between ±(3%~5%)”;

    Oil-immersed Transformer temperature rise check

    The oil-immersed transformer is connected to a fixed load.

    When energized for 1h, the temperature should not exceed the allowable temperature of the insulating material of the transformer.

    The increase in temperature will cause the insulation to age, affect the service life of the transformer, or even extinguish

    Failure of oil-immersed transformer: abnormal oil temperatu

    The oil temperature of the oil-immersed transformer will continue to rise under normal operation and cooling. The main reasons are as follows.

    (1) Damaged eddy currents or the insulation of the core bolts for clamping the iron core can cause the oil temperature of the oil-immersed transformer to rise, and the eddy currents will make the iron core overheated for a long time.

    In turn, the silicon steel sheet is damaged, resulting in a short circuit between the silicon steel sheet and the core bolt.

    At this time, a large current will pass through the core bolt, which will cause the bolt to heat up, and eventually cause the oil temperature of the oil-immersed transformer to rise.

    (2) There are large resistance short circuits on the secondary line, local interlayer and inter-turn short circuits of the windings, problems with internal contacts, and increased contact resistance, etc., which can increase the oil temperature of the transformer.

    (3) The radiator valve is not opened in time, the oil is insufficient, the load is too large, the ambient temperature is too high, the oil pump and the cooling fan are faulty, etc.

    In view of the phenomenon that the oil temperature of the oil-immersed transformer is too high, generally the oil level will drop significantly if the oil temperature is too high.

    If the oil level is lowered due to excessive oil leakage, the gas protection should be immediately changed to only act on the signal, and effective measures should be taken to improve the current situation of oil leakage and replenish the oil in time.

    Oil-immersed transformer failure: oil color, oil level abnormal

    Internal failure of oil immersed transformers and overheating of components can change the original smell and color.

    (1) Discoloration and abnormal odor are generally caused by the loosening of the fastening part of the secondary sleeve terminal and the high temperature of the contact surface;

    (2) The phenomenon of paint discoloration caused by local heating of the fuel tank is often closely related to the magnetic flux leakage effect of the transformer;

    (3) The damaged porcelain casing will cause the cooling fan and oil pump to burn and emit a burning smell;

    (4) The discoloration of the hygrometer is related to the excessive amount of water infiltrating the oil chamber, damage to the gasket, and excessive moisture absorption;

    The flash point of oil containing carbon particles and moisture will generally decrease, the acid value will increase, and the insulation performance needs to be improved, which is likely to cause breakdown of the winding and the casing.

    Malfunction of Oil immersed transformer: leaking oil

    The phenomenon of oil leakage during the operation of oil immersed transformer is relatively common, and the main reasons are as follows.

    (1) The interface between the fuel tank and the parts is not well sealed, the castings and weldments are insufficient, the operating load is too large, and there is a shock phenomenon.

    (2) The internal failure of the Oil-immersed transformer will cause the oil temperature to rise, making the oil volume larger, and causing oil injection or oil leakage.

    The quality of the oil can be judged by observing the specific shape and color of the oil.

    Judge whether the oil level is normal according to the ambient temperature standard line.

    If the oil level is too low, the transformer will leak oil.

    If the oil level is too high, the internal cooling device may be faulty.

    Oil-immersed transformer failure: iron core failure

    Iron core fault is a relatively common fault in oil-immersed transformers. Mainly for the following two.

    The oil-immersed transformer overheats and makes a crisp sound during operation

    When this fault occurs, the iron core is partially overheated, characteristic gas appears and there is intermittent discharge inside the transformer.

    The failure is mainly caused by the following factors:

    (1) The iron core laminations are not fastened or the tightening bolts are twisted skewed, resulting in partial short-circuit and overheating of the iron core.

    For this fault, it is necessary to loosen the clamps to straighten out the laminations at the loose places and then tighten them.

    Align the fastening bolts, add insulating sleeves and insulating pads, and then tighten the nuts.

    (2) The nut on the through-center screw is loose, and the laminations at the upper and lower ends of the yoke and side column are concave.

    For this fault, it is necessary to remove the through-core screw and clamp, take out the winding, and conduct a comprehensive inspection of the iron core.

    (3) The lamination burr is large, causing a partial short circuit of the lamination to generate eddy current, causing local overheating of the iron core.

    This fault has a cutting feel on the laminated surface, and the burr is obviously exceeding the standard. The micrometer is used to measure the range of 0.08~0.13mm. It needs to be deburred and painted and dried.

    The iron core is overheated, and the gas relay operates

    When the fault occurs, it mainly shows that the paint film or oxide film on the surface of some iron core laminations falls off. After chromatographic analysis, it is found that the gas is CH4, H2, C2H4 and exceeds the standard.

    The failure is mainly caused by the following reasons:

    (1) The insulation of the threaded rod is broken or overheated and carbonized, the seat sleeve of the threaded rod is too long, and the seat sleeve collides with the iron core. Such failures require replacement of cracked or carbonized feedthrough insulation.

    (2) Improper clamping position of the iron clamps will touch the iron core, resulting in partial short circuit and overheating of the iron core. For this kind of failure, it is necessary to loosen the iron clamp and adjust the position before tightening the nut.

    (3) Due to carelessness in the final assembly of the transformer, other foreign objects such as welding slag and electrode tips fall on the iron core, causing a partial short circuit of the iron core. For such failures, staff should be arranged to remove the welding slag and metal falling into the iron core. foreign body.

    (4) Install the grounding copper sheet. The copper sheet is too long.

    After the connection, the copper sheet touches another part of the iron core lamination, forming two or more points of grounding and short circuit, which makes the iron core partially overheated.

    For such faults, it is necessary to take out the ground copper sheet, cut off the excess length, and then insert it into the lamination to fix it firmly.

    What tests do oil-immersed transformers need to do?

    After an oil-immersed transformer is delivered or repaired, three tests are usually required: insulation resistance measurement, no-load voltage test and no-load current test.

    Insulation resistance measurement

    Use a megohmmeter to measure the insulation resistance between the windings and the winding to the iron core, and the value should be greater than 1MQ;

    No-load voltage test

    When the primary side input voltage (AC220V), the allowable error of the secondary side no-load voltage is less than 10%;

    No-load current test

    When the primary side input voltage (AC220V), the no-load current should be 5%~8% of the rated current value. If the no-load current exceeds 10% of the rated value, the loss will be large; if the no-load current exceeds 20% of the rated value, the transformer will heat up seriously and cannot be used.

    Oil-immersed Transformer VS Dry Type Transformer

    In order to ensure the safety and stability of electrical engineering and construction projects, many transformer manufacturers have begun to increase the R&D and design of dry-type and oil-immersed transformer equipment, which are increasingly widely used in electrical facilities.

    However, dry-type and oil-immersed transformers have their own advantages and disadvantages.

    Dry-type transformers are very easy to maintain and maintain, and their fire resistance is also very good, making them very safe to use.

    However, compared with traditional dry-type transformers, oil-immersed transformers have obvious advantages in no-load and load energy consumption.

    In the power grid system, oil-immersed transformers have been widely used. The only fly in the ointment is that the insulating oil is easy to burn, and it is not conducive to low-carbon environmental protection requirements.

    Analysis of the basic characteristics and advantages and disadvantages of dry-type transformers

    Dry-type transformers usually have the characteristics of oil-free, moisture-proof, heat insulation and dust resistance.

    The discharge capacity of some areas of the dry-type transformer is not very high, and it is not suitable for combustion. It has good fire protection advantages, effectively preventing fire hazards, and reducing the capital investment and expenditure for fire prevention and disposal.

    This kind of dry-type transformer has no oil leakage phenomenon, does not need to be repaired and maintained frequently, and also reduces the manpower input for frequent inspection and processing.

    In addition, this dry-type transformer is equipped in houses and buildings. During the operation and construction, it adopts the method of no hanging core, which does not need to take up too much space, and also saves the project cost.

    At present, it is very common in the electrical facilities of many civil air defense lower rooms and large-scale housing construction projects with strict fire resistance requirements such as multi-storey and high-rise buildings.

    In particular, the epoxy resin dry-type transformers produced by Dazheng in recent years have better solved the insulation and heat resistance properties of the production materials, preventing premature aging and damage.

    The fireproof grade of epoxy resin dry-type transformers produced by Dazheng has reached the H level, and it has been widely favored by many users.

    Usually, when temperature detection is performed, it is mainly based on pre-set temperature sensing facilities.

    The base point does not change frequently, the value of the general temperature does not change significantly, and even if the heat is concentrated in some parts, it cannot be accurately identified.

    Therefore, there is a large error, and this insulating material cannot be restored to its original state once it is damaged.

    When the old damage accumulates to a certain extent, if there is a safety hazard, the transformer cannot be repaired in time, and has to be scrapped in advance.

    Once the epoxy resin is scrapped, it cannot be completely recycled, so the economic effect is usually not very good.

    Analysis of the basic characteristics and advantages and disadvantages of oil-immersed transformers

    When the oil-immersed transformer is developed and designed, it mainly uses the heat dissipation function of the transformer oil. The structure type is not very complicated, the design and manufacture are very simple and applicable, and the operation is relatively safe and stable.

    Therefore, in recent years, the application has become more and more extensive, and many electrical projects are equipped with this oil-immersed transformer equipment.

    Since transformer oil is used for heat dissipation, the heat is especially transferred to the external metal structure.

    Therefore, the heat dissipation is relatively balanced and fast, and the insulation effect can be restored quickly and in time.

    However, this kind of transformer oil itself is very easy to burn, and there is a shortage of heat resistance, and the aging phenomenon is more prominent.

    Therefore, the design of Dazheng fully considers the above-mentioned characteristics, strictly follows the relevant provisions of fire protection regulations, scientifically sets fire protection grade standards and equips oil fire extinguishing facilities during research and development and later construction and application.

    Dazheng has established professional installation teams in many countries. This installation team can properly handle the problem of increased oil flow in the event of a fire. For insulating oil that may be aged and qualitatively changed, testing facilities should be installed and regularly inspected and replaced to promote the recycling of oil.

    In recent years, Dazheng has continuously developed new oil-immersed transformers, and has designed and developed a number of patented technologies.

    Dazheng’s fully enclosed oil-immersed transformer equipment has been rapidly developed, designed and used. Through the performance of the oil’s own cold and heat regulation performance, the external air circulation is blocked and oil leakage is prevented.

    Because the oil-immersed transformer does not use breathing facilities, it avoids the hidden danger of oxidation and increases the service life.

    At the same time, the design and installation does not require too much space, and the energy consumption is relatively small. The energy consumption is reduced by more than 30% at no load, the current loss is reduced by 50%, and the noise is reduced by 8 decibels.

    Therefore, it is only necessary to optimize technical measures in the design of oil-immersed transformers to overcome the adverse effects of oil burning, and oil-immersed transformers will obtain a wider space for use than dry-type transformers.

    What are the parts of an oil immersed transformer?

    For oil-immersed transformers, the core components are the iron core and windings, which constitute the overall framework of the transformer.

    Specifically, for conventional oil-immersed transformers, the body needs to be immersed in a closed tank filled with transformer oil.

    At the same time, relying on the insulating sleeve, the connection between the winding and the external circuit is realized.

    Summarize

    Oil-immersed power transformer is an indispensable power equipment for power production and transportation. Transformer is also an important equipment for realizing flexible transmission of power grid. The production quality of transformer directly affects the operation safety of power grid.

    In a word, the failure of oil-immersed transformers is caused by a variety of factors, and it is necessary to continuously summarize the causes of the failures to provide a scientific basis for future work, which will help improve work efficiency and quality, so as to achieve stable operation of oil-immersed transformers.