SynopsisBGH Edelstahl in Germany is partnering with Primetals Technologies to implement the Active Power Feeder, a pioneering power solution. This technology connects electric arc furnaces to the grid, ensuring high power quality, energy efficiency, reduced electrode consumption, and less stress on furnace equipment. The collaboration aims to showcase the environmental, technical, and commercial advantages of this system under industrial conditions, supporting BGH's commitment to reducing carbon emissions. Active Power Feeder is set to be a game-changer in green steel production, with the first industrial application expected by 2025.ArticleIn a significant leap towards greener steel production, BGH Edelstahl, a German steel producer, has joined forces with Primetals Technologies to introduce the groundbreaking Active Power Feeder. This revolutionary power solution promises to reshape the steelmaking industry by connecting electric arc furnaces to the grid while prioritizing high power quality, energy efficiency, reduced electrode consumption, and diminished wear and tear on furnace equipment.The Active Power Feeder is not just a technological innovation; it's a crucial step towards more sustainable steel production. At its core, this system utilizes a patented and proven medium voltage modular multilevel converter (MMC) technology within a pioneering power control system, developed by experts at Primetals Technologies. This control system ensures that the power supply operates at a level that meets the stringent requirements of power utility companies while minimizing electrical losses and maximizing furnace efficiency.One of the remarkable features of the Active Power Feeder is its adaptability. Whether a steel producer plans to modernize an existing EAF or intends to establish a new meltshop, this solution accommodates various implementation scenarios seamlessly. Furthermore, it can effectively compensate for the additional strain placed on the power supply system when integrating an extra ladle furnace, all without the need for additional static VAR compensators or static synchronous compensators.This collaborative endeavor between BGH Edelstahl and Primetals Technologies is not just about innovation; it's about demonstrating the real-world advantages of this technology. Under industrial production conditions, the Active Power Feeder will power BGH Edelstahl's electric arc furnace, featuring a 3-phase indirect modular multilevel converter. This partnership will showcase the environmental, technical, and commercial benefits of Active Power Feeder in scrap melting with EAFs.BGH Edelstahl, known for its specialty steel production, is committed to reducing its carbon footprint. The company has set ambitious targets to decrease Scope 1 and Scope 2 CO2 emissions by 42 percent and reduce Scope 3 emissions by 25 percent by 2030 compared to a 2021 baseline. Active Power Feeder aligns perfectly with these sustainability goals, offering a pathway to more eco-friendly steelmaking.ConclusionThe collaboration between BGH Edelstahl and Primetals Technologies to implement the Active Power Feeder heralds a significant transformation in the steelmaking industry. This revolutionary technology, designed to connect electric arc furnaces to the grid, brings forth a new era of green steel production. By ensuring high power quality, energy efficiency, and reduced environmental impact, the Active Power Feeder aligns perfectly with BGH Edelstahl's commitment to reducing carbon emissions. As the steel industry strives for sustainability, this innovative solution paves the way for a greener and more efficient future.
SynopsisBGH Edelstahl in Germany is partnering with Primetals Technologies to implement the Active Power Feeder, a pioneering power solution. This technology connects electric arc furnaces to the grid, ensuring high power quality, energy efficiency, reduced electrode consumption, and less stress on furnace equipment. The collaboration aims to showcase the environmental, technical, and commercial advantages of this system under industrial conditions, supporting BGH's commitment to reducing carbon emissions. Active Power Feeder is set to be a game-changer in green steel production, with the first industrial application expected by 2025.ArticleIn a significant leap towards greener steel production, BGH Edelstahl, a German steel producer, has joined forces with Primetals Technologies to introduce the groundbreaking Active Power Feeder. This revolutionary power solution promises to reshape the steelmaking industry by connecting electric arc furnaces to the grid while prioritizing high power quality, energy efficiency, reduced electrode consumption, and diminished wear and tear on furnace equipment.The Active Power Feeder is not just a technological innovation; it's a crucial step towards more sustainable steel production. At its core, this system utilizes a patented and proven medium voltage modular multilevel converter (MMC) technology within a pioneering power control system, developed by experts at Primetals Technologies. This control system ensures that the power supply operates at a level that meets the stringent requirements of power utility companies while minimizing electrical losses and maximizing furnace efficiency.One of the remarkable features of the Active Power Feeder is its adaptability. Whether a steel producer plans to modernize an existing EAF or intends to establish a new meltshop, this solution accommodates various implementation scenarios seamlessly. Furthermore, it can effectively compensate for the additional strain placed on the power supply system when integrating an extra ladle furnace, all without the need for additional static VAR compensators or static synchronous compensators.This collaborative endeavor between BGH Edelstahl and Primetals Technologies is not just about innovation; it's about demonstrating the real-world advantages of this technology. Under industrial production conditions, the Active Power Feeder will power BGH Edelstahl's electric arc furnace, featuring a 3-phase indirect modular multilevel converter. This partnership will showcase the environmental, technical, and commercial benefits of Active Power Feeder in scrap melting with EAFs.BGH Edelstahl, known for its specialty steel production, is committed to reducing its carbon footprint. The company has set ambitious targets to decrease Scope 1 and Scope 2 CO2 emissions by 42 percent and reduce Scope 3 emissions by 25 percent by 2030 compared to a 2021 baseline. Active Power Feeder aligns perfectly with these sustainability goals, offering a pathway to more eco-friendly steelmaking.ConclusionThe collaboration between BGH Edelstahl and Primetals Technologies to implement the Active Power Feeder heralds a significant transformation in the steelmaking industry. This revolutionary technology, designed to connect electric arc furnaces to the grid, brings forth a new era of green steel production. By ensuring high power quality, energy efficiency, and reduced environmental impact, the Active Power Feeder aligns perfectly with BGH Edelstahl's commitment to reducing carbon emissions. As the steel industry strives for sustainability, this innovative solution paves the way for a greener and more efficient future.