23/12/2024 – Order from USA

Primetals supplies EAF Ultimate with Active Power Feeder solution

A steel producer based in the U.S.A. has recently awarded Primetals Technologies a contract for the engineering, supply, and startup of a 68-ton EAF Ultimate electric arc furnace (EAF) integrated with Active Power Feeder power supply technology. Startup is scheduled for the end of 2026.

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Primetals Technologies will supply an EAF Ultimate integrated with Active Power Feeder power supply technology to a U.S.-based steel producer. © Primetals

 

The order also includes a primary dedusting system, a material handling system, auxiliary equipment, and a complete Level 1 and Level 2 automation system.

The new equipment will replace two spout-tapping electric arc furnaces and will boast an annual production capacity of 0.75 million tons. The steel producer specializes in medium carbon, high-alloy, and free-cutting steel grades.

AF Ultimate is part of Primetals Technologies’ latest generation of electric steelmaking equipment, characterized by short tap-to-tap times, fully automated operation, and advanced control systems. EAF Ultimate features the modern eccentric bottom-tapping (EBT) system, which eliminates the issue of slag escaping the furnace during tapping, leading to improved final steel quality.

The manufacturer has taken a pioneering step by selecting Active Power Feeder technology for this project. With this ground-breaking power supply solution, the company becomes the first steel producer to power an EAF using direct AC-AC conversion utilizing Modular Multilevel Matrix converter (M3C) technology at a medium voltage level, marking a significant advancement in energy efficiency.

The Active Power Feeder solution provides fast dynamic control, resulting in efficient energy input to the EAF while simultaneously minimizing disturbances on the grid.

When combined with Melt Expert, the Active Power Feeder dynamically manages EAF power input and optimizes the melting process. This results in reduced energy consumption, lower electrode usage, decreased production costs, and increased process stability, all while meeting utility regulations. Additionally, the Active Power Feeder system draws symmetrical power and can compensate for the ladle furnace without the need for a separate compensation system.

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