Displaying items by tag: tapping system
Danieli and Ametek Land collaborate on automatic electric arc furnace tapping system
30 November 2018Italy/UK: Ametek Land in the UK has collaborated with Italy’s Danieli on its automatic tapping system to increase operation safety and improve process control for steel plants. The Danieli Automatic Electric Arc Furnace (EAF) Tapping System product allows complete furnace tapping remotely from the main pulpit of a steel plant. The system starts furnace tilting in automatic mode, controlling the furnace position during the complete tapping process.
Embedded within the system are two thermal imaging systems from Ametek Land: its Slag Detection System (SDS-E), branded as Danieli’s Q-Slag, and a near-infrared (NIR) fixed thermal imager that is part of the Ladle Level Detection (LLD) system. The thermal imaging systems are used in conjunction with Danieli software to control steel flow in real time.
Q-Slag makes use of an SDS-E imager to detect the transition between steel and slag. It also quantifies the amount of slag that may pass into the ladle. That information is useful for fine-tuning alloys and lime additions for the secondary metallurgy. In parallel with Q-Slag, the LLD system controls when steel inside the teeming ladle has reached pre-set level positions. Back tilting can be done either in automatic mode (when the pre-conditions regarding steel level and weight are met) or by remote intervention of the EAF operator from the main pulpit.
Ametek Land says that its Slag Detection System can improve operator response times and steel consistency at the end of each tap. Those improvements typically result in up to a 25% reduction in slag depths, compared with traditional methods of stream monitoring.
Danieli designs plants and manufactures and installs machines for the metals industry covering the entire production cycle from raw ore to finished steel products. Ametek Land manufactures monitors and analysers for industrial infrared non-contact temperature measurement, combustion efficiency and environmental pollutant emissions.