Project cooperationUpdated on 26 August 2024
Energy efficient and reliable power and distribution transformer
About
Energy-efficient and reliable power and distribution transformer design, analysis, and manufacturing refers to the comprehensive process of creating transformers that minimize energy loss and provide consistent, dependable performance. This process involves several key steps:
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Design: Developing transformer models that are optimized for energy efficiency, ensuring that they convert electrical energy from one voltage level to another with minimal losses.
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Analysis: Evaluating the designs through simulations and testing to ensure they meet energy efficiency standards and reliability requirements. This includes assessing factors like thermal performance, electrical characteristics, and mechanical durability.
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Manufacturing: Producing the transformers using high-quality materials and advanced techniques to ensure they are both energy-efficient and reliable in real-world applications. This step also involves quality control to maintain consistency and performance standards.
Overall, this approach aims to produce transformers that are both cost-effective to operate and durable, reducing energy consumption and maintenance needs over their operational lifespan.
Topic
- CM2024-02: Energy system flexibility: renewables production, storage and system integration
- CM2024-03A/03B: Advanced renewable energy (RE) technologies for power production
- CM2024-09: Integrated industrial energy systems
- CM2024-10: Clean energy integration in the built environment
Type
- R&D Partner
- Technology Partner
- Validator/Living lab
Organisation
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Arpad Török
researcher at Sesam Technology SRL Berceni
Romania
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Hongyu Zhang
Researcher at Norwegian University of Science and Technology
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Paolo Pisciella
Researcher at Norwegian University of Science and Technology
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