Transformer lamination supplier factory today: What causes the transformer to make abnormal noise? Impurities or gases in the oil: Impurities or gases in the oil inside the transformer may cause unstable oil flow or air oscillations, resulting in abnormal noise. Mechanical failure: Mechanical failures inside the transformer, such as equipment failures such as transformer cooling fans or pumps, may cause abnormal sounds. Loose or leaky pipes: Loose or leaky pipes inside the transformer can cause air oscillations or unstable gas flow, which can produce unusual noises. External environmental factors: Factors such as excessive temperature of the transformer operating environment or noise interference may also cause abnormal sounds. Therefore, if the transformer makes abnormal noise, it is necessary to check and repair the transformer in time. The specific maintenance method needs to be selected according to the cause of the abnormal sound and the specific situation in order to restore the normal operation and stability of the transformer. At the same time, during the installation, operation and maintenance of the transformer, attention should be paid to environmental temperature, humidity, noise and other factors to avoid adverse effects on the transformer. Find more details on https://www.canwindg.com/products-detail-127763.
What is the capacity of the transformer related to? The capacity of the transformer refers to the maximum load electric power that the transformer can bear. The capacity of the transformer is related to the following factors: Input voltage and output voltage: The input voltage and output voltage of the transformer determine the transformation ratio of the transformer, which affects the capacity of the transformer. The higher the input voltage of the transformer and the lower the output voltage, the larger the transformation ratio and the larger the capacity. Load nature: Different loads have different power factors, harmonic content and other characteristics, which affect the capacity of the transformer. For inductive loads, the capacity of the transformer can be appropriately reduced; for nonlinear loads, the capacity of the transformer needs to be appropriately increased.
Epoxy resin is non – combustible, flame retardant, self – extinguishing solid insulation material, safe and clean. It is also a solid insulation material with proven insulation and heat dissipation technology for more than 40 years.Epoxy resin products can be used for dry type transformer, for insulation parts, for instrument transformer, for electrical composite parts and for room temperature curing. Epoxy resin dry transformer uses epoxy resin as insulation material. The high and low voltage windings are made of copper tape (foil), industrial epoxy resin is poured in vacuum and cured, forming a high strength FRP body structure. Insulation grade F, H. Epoxy resin dry transformer has the characteristics of good electrical performance, strong resistance to lightning impact, strong resistance to short circuit, small size and light weight. Temperature display controller can be installed to display and control the operating temperature of the transformer winding to ensure the normal service life of the transformer.
The cooling methods are divided into natural air cooling (AN) and forced air cooling (AF). When air cooled naturally, the transformer can run continuously for a long time under rated capacity. When forced air cooling, transformer output capacity can be increased by 50%. Suitable for intermittent overload operation, or emergency overload operation; Because the load loss and impedance voltage increase greatly during overload, it is in non-economic operation state, so it should not be in continuous overload operation for a long time.Welcome to inquiry price for dry type substation transformer.
A transformer core is a static device that provides a channel for magnetic flux to flow in a transformer. The core is constructed using thin strips of silicone steel. The silicon steel sheets are electrically isolated and coupled to reduce no-load losses in the transformer.The core of a transformer is made of soft iron. Transformers are used in various fields like power generation grid, distribution sector, transmission, and electric energy consumption.
CANWIN adheres to the business policy of high -end manufacturing, intelligent equipment + intelligent factory, comprehensively improves the quality of products and the cutting speed and precision, accelerates the transformation of development mode, and promotes the upgrading of industrial structure In terms of new product development, the company relies on the “Guangdong university of technology provincial thin plate processing and cutting technology engineering center”as an innovation platform, continuously trains and introduces technological talents, and provides intellectual support for the company to enhance soft power and rapid development.
The materials that can be processed by longitudinal shear equipment include cold-rolled plate, stainless steel plate, aluminum plate, galvanized plate and color coated plate. However, for different materials, there are certain differences in the strength of blade materials, so as to obtain good cutting effect. Canwin slitting line supplier & manufacturer focus on the internal management and opens up the market.We continuously achieve development in the competition based on strong technical capability, high-quality products, and comprehensive and thoughtful services.
The transformer core provides a magnetic path to channel flux. The use of highly permeable material (which describes the material’s ability to carry flux), as well as better core construction techniques, helps provide a desirable, low reluctance flux path and confine lines of flux to the core. An electrical distribution cabinet is a part of an electrical system whose task is to distribute electrical energy. It includes distribution, protection, measurement, control and signaling instruments. The electrical distribution box also contains wires, various types of insulation, and support components. Find additional info on https://www.canwindg.com/
Digital measurement – Digital measurement of transformers or other components can be conducted, and the measurement results can be called and collected from the process layer and station control layer through digital networks, thus monitoring transformers and other equipment.Status visualization – The operation status of transformers can be visualized and observed in the power grid.Smart grid or other related systems can express the status information of transformer self-detection or information interaction.
Impedance voltage (%): Short-circuit the secondary winding of the transformer and slowly increase the voltage on the primary winding. When the short-circuit current of the secondary winding equals the rated value, the voltage applied on the primary side is the impedance voltage. It is usually expressed as a percentage of the rated voltage. Phase number and frequency: Three-phase is represented by S, and single-phase is represented by D. The frequency f of China’s national standard is 50Hz.There are countries abroad with 60Hz (such as the United States).I. Temperature rise and cooling: The difference between the temperature of the transformer winding or upper oil layer and the temperature of the surrounding environment is called the temperature rise of the winding or upper oil layer. The limit value of the temperature rise of the oil-immersed transformer winding is 65K, and the temperature rise of the oil surface is 55K.There are also various cooling methods: oil-immersed self-cooling, forced air cooling, water cooling, tube type, sheet type, etc.
When these harmonic currents flow through a transformer, they can cause increased core losses due to hysteresis and eddy currents. Hysteresis loss is related to the magnetization and demagnetization of the transformer’s core material in response to the alternating current. Eddy current loss occurs when induced currents circulate within the core material, creating local magnetic fields that oppose the main field. Both these losses increase with the frequency of the current. Thus, higher frequency harmonic currents can lead to considerably higher core losses, reducing the transformer’s efficiency and causing it to overheat, which can shorten its lifespan.