Daelim Belefic three-phase oil-immersed small substation transformer is designed to use in the power distribution system.A substation is a component of a system that generates,transmits, and distributes electricity.Substations convert high to low voltage- or vice versa-and conduct a variety of other critical duties. Electricity may travel through many substations at varying voltage levels between the generating station and the customer.Transformers may be used in a substation to convert voltage levels between high transmission and low distribution voltages or to connect two separate transmission voltages.
A transformer with a capacity ranging from 300kVA to 10MVA is a medium-sized transformer that possesses the following characteristics:
High capacity: These transformers are capable of handling a significant amount of power transmission and distribution. They are suitable for medium-sized industrial, commercial, and residential areas.
High efficiency: These transformers are designed with efficient mechanisms and high-quality materials to minimize energy losses and maximize energy conversion efficiency.
Various cooling methods: Medium-sized transformers can be equipped with different cooling systems such as oil-immersed (commonly used in high-capacity transformers), air-cooled, or water-cooled.
Reliability and stability: These transformers are constructed using premium insulation materials and advanced manufacturing techniques to enhance reliability and stability.
Overload and short-circuit protection: Medium-sized transformers are often equipped with overload and short-circuit protection devices to safeguard against excessive loads or short-circuit conditions. These protective measures promptly disconnect the power supply, protecting the transformer and associated equipment from damage.
Customizability: Medium-sized transformers can be customized based on specific requirements such as input voltage, output voltage, and cooling methods.
Rated Power (KVA) | High Voltage (KV) | Low Voltage (V) | Connection Symbol | Short Circuit Impendence | No-load Loss (W) | On-load Loss (W) | Reference Weight (KG) |
800 | 12.0 12.47 13.2 13.8 14.4 23.0 24.94 34.5 34.8 44 or others | 208/210 415/240 480/277 400 600 12000 12470 13200 13800 or others | Dyn1 Ynyn0 Dyn11 Dd0 Ynd11 or others | 2.7 3.1 4.35 5.75 6.0 | 980 | 9350 | 2050 |
1000 | 1160 | 11500 | 2450 | ||||
1250 | 1380 | 13900 | 2900 | ||||
1600 | 1660 | 16600 | 3400 | ||||
2000 | 2030 | 18300 | 4100 | ||||
2500 | 2450 | 19600 | 4750 | ||||
3000 | 3240 | 26500 | 6500 | ||||
5000 | 4500 | 27000 | 9500 | ||||
7500 | 7200 | 32000 | 13600 | ||||
10000 | 8500 | 35500 | 15800 |