Efficient & Safe Power: Henan New Electric SCB Series Dry-Type Transformer Commissioned for Commercial Complex in Manila
Project Overview: In early 2026, Henan New Electric Power successfully delivered and provided installation guidance for a set of high-performance SCB Series Cast Resin Dry-Type Transformers for a major commercial development project in Metro Manila, Philippines. The client required a power solution that combined high safety standards, compact footprint, and the ability to withstand the region's characteristic high humidity.
Challenges & Solutions:
- Space Constraints: The project’s electrical room was located in the basement with limited ventilation. We provided a compact SCB series design with an optimized cooling system, ensuring stable operation even in confined spaces.
- Humidity & Corrosion: Given the tropical climate of the Philippines, moisture is the enemy of insulation. Our transformers utilize vacuum pressure casting technology, providing a complete seal for the coils against dust and moisture.
- Fire Safety: Being an indoor installation, fire prevention was non-negotiable. Our dry-type transformers use self-extinguishing materials, eliminating the risk of oil leakage or fire hazards.
On-Site Execution: As shown in the project photos, our technical team coordinated closely with local contractors. The installation process included precise positioning of the transformer units and integration with high-voltage switchgear cabinets. The Henan New Electric team provided remote technical support to ensure every connection met international safety standards.
Client Feedback: The project manager noted, "The transition to Henan New Electric's dry-type transformers has significantly reduced our maintenance concerns. The units are quiet, efficient, and the technical documentation provided made the commissioning process seamless."
Project Technical Highlights:
- Product Type: SCB13 Cast Resin Dry-Type Transformer
- Rated Capacity: [ 1250kVA]
- Voltage Ratio: 11kV / 0.4kVA
- Standard Compliance: IEC 60076 / IEEE
