Conso Electrical Technology and Science Co., Ltd. has accumulated production experience to manufacture 10 0.4 kv pole mounted transformer since 2006. Under the requirement of IEC60076, The company specializes to make 10 0.4 kv pole mounted transformer 30 kva in a large scale and less time consume. The company has more than 10 years’ experience production workers on producing 10 0.4 kv pole mounted transformer. Conso Electrical develops “4S” production management system to enhance the efficiency in pole mounted transformer manufacturing. We are welcome you visit our factory to build the partnership.
Select 10 0.4 kv pole mounted transformer capacity based on the economic load factor. 10 0.4 kv pole mounted transformers have both active and reactive losses when operating. To transmit and supply this reactive power, additional active losses occur in generators, lines, phase-shifting devices, capacitors, and other equipment. Therefore, when considering the economic operation of 10 0.4 kv pole mounted transformers and determining the economic load factor, the additional active losses due to transformer no-load reactive losses should be taken into account. Additionally, the fact that the transformer load is constantly changing should also be considered when determining the economic load factor.
Set different standard loss values for transformers at different load factors. 10 0.4 kv pole mounted transformers operate with varying efficiency under different load conditions. To achieve economical operation, it's important to minimize the product of 10 0.4 kv pole mounted transformer no-load losses and load losses and select an appropriate ratio of no-load losses to load losses to maximize transformer efficiency at the economic load factor. In the case of generator 10 0.4 kv pole mounted transformers, where load factors are relatively high, manufacturers should strive to reduce load loss rates to achieve economical operation.
Therefore, users should select the 10 0.4 kv pole mounted transformer capacity to be installed based on the load factor determined by economic analysis. In some cases, it may be economical to have "a big horse pull a small cart" (i.e., a capacity utilization rate lower than 50%). It's crucial to conduct a detailed investigation and forecast of load fluctuations and avoid the potential for transformer overloads, as operating transformers under overload conditions can lead to aging and damage.
Convert cold standby to hot standby. To prevent losses in the power grid due to 10 0.4 kv pole mounted transformer failures, many users have spare 10 0.4 kv pole mounted transformers that are not in use during normal operations, referred to as cold standby. To enhance efficiency, cold standby transformers should be converted to hot standby, meaning they operate during normal operations, even with a low load factor. When one 10 0.4 kv pole mounted transformer experiences a failure and goes offline, the others can continue to operate without overloading. By converting cold standby to hot standby, the load factor of the10 0.4 kv pole mounted transformers during normal operation approaches the economic load factor, improving operational efficiency.
Additionally, using two different 10 0.4 kv pole mounted transformers to separate industrial power and lighting power is an energy-saving method.
Implement parallel operation. For locations with significant annual load variations, such as drainage stations and salt farms, seasonal load differences can be substantial. To reduce no-load losses and maintain efficiency, variable-capacity 10 0.4 kv pole mounted transformers can be used, or multiple smaller capacity transformers can be operated in parallel. During peak demand, all pole mounted transformers are put into operation, and during off-peak periods, only one transformer (or group) is used. Alternatively, "master-slave" transformers can be employed, with a larger pole mounted transformer used during peak times and automatically switched out during low-demand periods in favor of a smaller pole mounted transformer.
Rated Capacity: | 30 kVA; |
Mode: | S13-M-30 or depends; |
Primary Voltage: | 10000V; |
Secondary voltage: | 400V; |
No Loading Loss: | 65 W ±10%; |
Loading Loss: | 600 W ±10%; |
Phase Number: | Single Phase or three phase; |
Basic Insulation Level: | 75kV/35kV(LI/AC); |
Insulation Material: | Mineral Oil or epoxy resin. |
Front Mounted
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Side Mounted
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Single Phase Transformer
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Single Pole Mounted
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Winding Workshop |
Coil Drying Area |
Oil Filling Area |
Finished Product Area |
Transformer Oven |
Casting Equipment |
Foil winding machine |
Wooden Box |
Steel Structure |