16 KVA Transformer for Wind Farms
A 16 KVA Three-Phase Cast Resin Transformer is a specific type of electrical transformer designed for efficient power distribution, typically used in various industrial, commercial, or residential applications.
Product Description
This 16 KVA transformer is specifically designed for wind farms, with the ability to efficiently convert generated electricity for transmission. With a capacity of 16 KVA, it can handle the high voltage output of wind turbines and ensure reliable energy delivery to the grid. Perfect for large-scale wind farm operations. Expertly engineered for large-scale wind farm operations, this 16 KVA transformer provides efficient conversion of generated electricity for reliable energy delivery. With its high voltage capacity, it can easily handle the output of wind turbines, making it the perfect fit for any wind farm.
Main Technical Specifications
| Type | Dry Type Transformer |
| Phrase | Three-phase |
| Rated Capacity | up to 20000 KVA |
| Rated Voltage | up to 40.5 KV |
| Frequency | 50Hz / 60Hz |
| Winding Material | Copper |
| Iron Core | Cold-rolled Silicon Steel Sheet |
| Place of Origin | Jiangsu, China |
A 16 KVA Three-Phase Cast Resin Transformer is a specific type of electrical transformer designed for efficient power distribution, typically used in various industrial, commercial, or residential applications. Here’s a brief product description:
Key Features:
1. Capacity: The transformer has a rating of 16 kilovolt-amperes (KVA), indicating its capability to handle moderate electrical loads. This makes it suitable for applications where a reliable and stable power supply is required.
2. Three-Phase Configuration: Being a three-phase transformer, it is designed to handle three alternating currents, making it well-suited for industrial and commercial settings where three-phase power systems are common.
3. Cast Resin Insulation: The transformer is constructed using cast resin insulation, which provides excellent protection against environmental factors, such as moisture and contaminants. This insulation method also enhances safety by eliminating the risk of oil leaks.
4. Dry-Type Design: As a dry-type transformer, it does not use liquid coolant such as oil. This makes it a safer option for indoor installations, where the risk of fire and environmental concerns need to be minimized.
5. Compact Design: The transformer is designed to be compact, allowing for ease of installation in spaces where available room may be limited. This is particularly beneficial in industrial environments where space optimization is crucial.
6. Efficiency: The transformer is engineered for high efficiency, ensuring minimal energy losses during the power conversion process. This can contribute to cost savings over the operational life of the transformer.
7. Low Maintenance: The dry-type design typically requires lower maintenance compared to oil-filled transformers. This can result in reduced downtime and operational disruptions.
8. Compliance with Standards: The transformer complies with relevant industry standards and regulations to ensure its safety, reliability, and performance.
Applications:
– Industrial Facilities: Suitable for various industrial applications requiring a three-phase transformer with a 16 KVA capacity.
– Commercial Buildings: Ideal for providing power in commercial establishments such as offices, malls, and retail spaces.
– Residential Complexes: Can be used in residential settings where a three-phase power supply is required.
– Renewable Energy Projects: Suitable for integration into renewable energy projects, such as solar or wind installations.
– Data Centers: Can be utilized in data centers where a stable and reliable power supply is critical.
Before purchasing and installing a transformer, it’s essential to consult with electrical engineers or professionals to ensure that the specific requirements of the application are met and that the installation adheres to safety standards and regulations.