To fit variance market demands, Conso Electrical Technology and Science Co., Ltd is as a manufacturer offer customized service of producing medium voltage power transformer, such as a 1.5 1.6 mva medium power transformer in substation. The engineer will design an ideal solution according to requirements from clients. Evermore, as a manufacturer of compact substation, our clients has more options, such as to pick the insulation method of mv panel, distribution method of lv panel and the material of enclosure. Meanwhile, The company selects incoming material of power transformers seriously to deliver a smooth user journey.
Power transformers are one of the key devices in power plants and substations. They serve multiple functions, not only raising the voltage to transmit electrical energy to the consumer areas but also lowering the voltage to various levels for specific usage, meeting the electrical demands. In summary, both stepping up and stepping down voltages are tasks performed by transformers. During the transmission of electrical energy in a power system, voltage and power losses are inevitable. When transmitting the same power, voltage losses are inversely proportional to voltage, while power losses are inversely proportional to the square of voltage. Utilizing transformers to raise voltage reduces energy losses during transmission.
Power Transformers consist of two or more coils wound on the same iron core. These windings are interconnected through an alternating magnetic field and operate based on the principles of electromagnetic induction. Transformer installation locations should be chosen for operational convenience, maintenance, and transportation, while prioritizing safety and reliability. When using transformers, it is essential to select the rated capacity rationally. Transformers draw a substantial amount of reactive power when operating under no-load conditions. This reactive power needs to be supplied by the power supply system. Choosing an oversized transformer not only increases the initial investment but also leads to long-term operation at no-load or light-load conditions, increasing the proportion of no-load losses, reducing power factor, and increasing network losses. Such operation is both uneconomical and unreasonable. Conversely, selecting a transformer with a capacity that is too small may lead to prolonged overloading, potentially damaging equipment. Therefore, the rated capacity of the transformer should be selected based on the electrical load requirements, avoiding sizes that are excessively large or small.
Rated Capacity: | 1.6 mva; |
Mode: | S13-M-1600 or depends; |
Voltage Ratio: | 13.8/0.433 kV; 33/0.415 kV, 35/0.4 kV; |
No loading loss: | 1.2 kW ± 10%; |
loading loss: | 14.5 kW ± 10%; |
Impedance: | 5.5% ± 15%; |
Short Circuit Current: | ≤0.18%; |
Winding Material: | 100% Copper or 100% Aluminum; |
Vector Group: | Dyn11; Yyn0; |
Transformer Winding:
Transformer in Application:
Winding Workshop |
Coil Drying Area |
Oil Filling Area |
Finished Product Area |
Transformer Oven |
Casting Equipment |
Foil winding machine |
Wooden Box |
Steel Structure |