Product description
In the power system, the S20 oil-immersed transformer is essential to change the operating voltage of the electrical energy. Different kinds of transformers give full play to different aspects of the power system, among which oil-immersed transformers are one of the common and commonly used types of transformers. Let’s take an in-depth look at the necessity of the S20 oil-immersed transformer and its related details. S20 oil-immersed transformer, its size is length (L), width (×× height (H) (mm) (no safety shield shell) (with safety shield shell) 1100×900×1000 The actual size can be tailored according to the model and specifications), especially suitable for installation and use in places such as power grids.
First of all, it is important to grasp the value of the S20 oil-immersed transformer specifications. The size of the transformer will be directly related to the installation, transportation, daily maintenance function and other aspects of the transformer. The correct size of the S20 oil-immersed transformer is particularly important to ensure the normal operation and maintenance of the power engineering system.
The S20 oil-immersed transformer size includes all aspects. The most basic of these is the size of the transformer. Dimensions include transformer length, width, and height. This specification will directly affect the planning and installation method of the transformer. In addition to this, the size will also affect the means of transport and space requirements of the transformer. Therefore, when designing and selecting the S20 oil-immersed transformer, the size of the transformer must be comprehensively considered to ensure that it can adapt to the specific use environment.
In addition to this, the S20 oil-immersed transformer dimensions also include the transformer weight. The weight of the transformer will be directly related to the installation and load-bearing capacity of the transformer. A suitable net weight design ensures that the transformer receives the right support points during installation and can withstand the appropriate loads. Therefore, in the production of S20 oil-immersed transformers, the transformer weight must be scientifically designed according to the actual needs and application fields.
In addition to the design size and weight, the dimensions of the S20 oil-immersed transformer also contain the main parameters of the electrical equipment of the transformer. The main parameters of the electrical equipment of the transformer include maximum power, rated voltage, rated current and conversion ratio. These parameters are particularly important for the proper functioning of power engineering systems. The correct selection of the main parameters of the electrical equipment configured with the transformer will ensure the reasonable transmission and conversion of electric energy. Therefore, when designing and selecting the S20 oil-immersed transformer, it is necessary to accurately understand the main parameters of the electrical equipment of the transformer to meet the requirements of the power system.
It is worth noting that the size of the S20 oil-immersed transformer will also be limited by some external conditions. For example, the operating temperature around the transformer, the average altitude and its output power requirements all have an impact on the transformer size design. A variety of factors must be taken into account in the design and selection of the S20 oil-immersed transformer to ensure that the transformer size can adapt to different operating environments and conditions.
All in all, the size of the S20 oil-immersed transformer plays a crucial role in the proper operation of the power engineering system. Choosing the right size and design transformer will ensure that it can meet the actual needs in terms of use, transportation, and daily maintenance functions. Therefore, when designing and selecting the S20 oil-immersed transformer, the size, net weight, main parameters of electrical equipment and environmental factors of the transformer must be comprehensively considered to ensure that the transformer can operate safely and reliably.