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Wind-powered electrification: An industrial revolution awaits
See how industrial electrification with wind energy drives decarbonization, boosts efficiency and paves the way to a sustainable future.
Choose wisely, because materials matter
Explore top electric resistance materials for wind farm braking resistors and learn to choose the ones that maximize efficiency and reliability.
Cuprothal®
Cuprothal® 熱電対用金属ストリップ Cuprothal® 熱電対帯材は、低い比抵抗を持つオーステナイト系銅ニッケル合金(CuNi合金)です。E、J、T、およびKCB(VX)タイプの熱電対および補償導線の負極導体として使用されます。Cuprothal® は20 Kまでの温度で使用でき、Seebeck係数は約8 μV/Kです。 熱電対タイプEは、一般的な熱電対の中で最も高い起電力を持っており、このために熱発電機(熱電堆)で使用されます。Kanthal’s quest to decarbonize cement production with ELECTRA project
Discover Kanthal's role in the ELECTRA project, developing electric heating solutions to reduce CO2 emissions in the cement, lime, and pulp industries.
Five trends accelerating industrial electrification
Explore the key drivers behind the surge in industrial electrification, from sustainability and flexibility to innovation and policy support.
Envisioning a future where power-balancing furnaces are the new norm
Explore how Björneborg Steel and Svenska Kraftnät are pioneering grid stability through innovative power system balancing.
Built to last: Expert tips and advanced materials
Learn how to make your wind farm braking resistors last longer with expert tips on materials, design, maintenance, and more.