Real-time control of the mould flow in a model of continuous casting in frame of the TOMOCON project

Publication Date:
2018-10-14
Publisher:
Institute of Physics (IOP)
Print ISSN:
1757-8981
Electronic ISSN:
1757-899X
Topics:
Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics
Published by:
_version_ 1836399068229664768
autor T. Wondrak, U. Hampel, M. Ratajczak, I. Glavinic, F. Stefani, S. Eckert, D. van der Plas, P. Pennerstorfer, I. Muttakin, M. Soleimani, S. Abouelazayem, J. Hlava, A. Blishchik and S. Kenjeres
beschreibung In continuous casting, the flow structure of the liquid steel in the mould and the two-phase distribution in the submerged entry nozzle (SEN) are crucial for the quality of the produced steel. In order to effectively control the flow in the mould by electromagnetic brakes (EMBrs) and the injection of gas into the SEN, even a rough knowledge of the flow structure would be very helpful. In the framework of the TOMOCON project, the contactless inductive flow tomography (CIFT) and the mutual inductance tomography (MIT) will be integrated into a control loop for slab casters. This control loop will be developed and implemented at the Mini-LIMMCAST facility, which is available at the Helmholtz-Zentrum Dresden - Rossendorf. In this paper a short overview of this project will be given.
citation_standardnr 6344563
datenlieferant ipn_articles
feed_id 123476
feed_publisher Institute of Physics (IOP)
feed_publisher_url http://www.iop.org/
insertion_date 2018-10-14
journaleissn 1757-899X
journalissn 1757-8981
publikationsjahr_anzeige 2018
publikationsjahr_facette 2018
publikationsjahr_intervall 7984:2015-2019
publikationsjahr_sort 2018
publisher Institute of Physics (IOP)
quelle IOP Conference Series: Materials Science and Engineering
relation http://iopscience.iop.org/1757-899X/424/1/012003
search_space articles
shingle_author_1 T. Wondrak, U. Hampel, M. Ratajczak, I. Glavinic, F. Stefani, S. Eckert, D. van der Plas, P. Pennerstorfer, I. Muttakin, M. Soleimani, S. Abouelazayem, J. Hlava, A. Blishchik and S. Kenjeres
shingle_author_2 T. Wondrak, U. Hampel, M. Ratajczak, I. Glavinic, F. Stefani, S. Eckert, D. van der Plas, P. Pennerstorfer, I. Muttakin, M. Soleimani, S. Abouelazayem, J. Hlava, A. Blishchik and S. Kenjeres
shingle_author_3 T. Wondrak, U. Hampel, M. Ratajczak, I. Glavinic, F. Stefani, S. Eckert, D. van der Plas, P. Pennerstorfer, I. Muttakin, M. Soleimani, S. Abouelazayem, J. Hlava, A. Blishchik and S. Kenjeres
shingle_author_4 T. Wondrak, U. Hampel, M. Ratajczak, I. Glavinic, F. Stefani, S. Eckert, D. van der Plas, P. Pennerstorfer, I. Muttakin, M. Soleimani, S. Abouelazayem, J. Hlava, A. Blishchik and S. Kenjeres
shingle_catch_all_1 Real-time control of the mould flow in a model of continuous casting in frame of the TOMOCON project
In continuous casting, the flow structure of the liquid steel in the mould and the two-phase distribution in the submerged entry nozzle (SEN) are crucial for the quality of the produced steel. In order to effectively control the flow in the mould by electromagnetic brakes (EMBrs) and the injection of gas into the SEN, even a rough knowledge of the flow structure would be very helpful. In the framework of the TOMOCON project, the contactless inductive flow tomography (CIFT) and the mutual inductance tomography (MIT) will be integrated into a control loop for slab casters. This control loop will be developed and implemented at the Mini-LIMMCAST facility, which is available at the Helmholtz-Zentrum Dresden - Rossendorf. In this paper a short overview of this project will be given.
T. Wondrak, U. Hampel, M. Ratajczak, I. Glavinic, F. Stefani, S. Eckert, D. van der Plas, P. Pennerstorfer, I. Muttakin, M. Soleimani, S. Abouelazayem, J. Hlava, A. Blishchik and S. Kenjeres
Institute of Physics (IOP)
1757-8981
17578981
1757-899X
1757899X
shingle_catch_all_2 Real-time control of the mould flow in a model of continuous casting in frame of the TOMOCON project
In continuous casting, the flow structure of the liquid steel in the mould and the two-phase distribution in the submerged entry nozzle (SEN) are crucial for the quality of the produced steel. In order to effectively control the flow in the mould by electromagnetic brakes (EMBrs) and the injection of gas into the SEN, even a rough knowledge of the flow structure would be very helpful. In the framework of the TOMOCON project, the contactless inductive flow tomography (CIFT) and the mutual inductance tomography (MIT) will be integrated into a control loop for slab casters. This control loop will be developed and implemented at the Mini-LIMMCAST facility, which is available at the Helmholtz-Zentrum Dresden - Rossendorf. In this paper a short overview of this project will be given.
T. Wondrak, U. Hampel, M. Ratajczak, I. Glavinic, F. Stefani, S. Eckert, D. van der Plas, P. Pennerstorfer, I. Muttakin, M. Soleimani, S. Abouelazayem, J. Hlava, A. Blishchik and S. Kenjeres
Institute of Physics (IOP)
1757-8981
17578981
1757-899X
1757899X
shingle_catch_all_3 Real-time control of the mould flow in a model of continuous casting in frame of the TOMOCON project
In continuous casting, the flow structure of the liquid steel in the mould and the two-phase distribution in the submerged entry nozzle (SEN) are crucial for the quality of the produced steel. In order to effectively control the flow in the mould by electromagnetic brakes (EMBrs) and the injection of gas into the SEN, even a rough knowledge of the flow structure would be very helpful. In the framework of the TOMOCON project, the contactless inductive flow tomography (CIFT) and the mutual inductance tomography (MIT) will be integrated into a control loop for slab casters. This control loop will be developed and implemented at the Mini-LIMMCAST facility, which is available at the Helmholtz-Zentrum Dresden - Rossendorf. In this paper a short overview of this project will be given.
T. Wondrak, U. Hampel, M. Ratajczak, I. Glavinic, F. Stefani, S. Eckert, D. van der Plas, P. Pennerstorfer, I. Muttakin, M. Soleimani, S. Abouelazayem, J. Hlava, A. Blishchik and S. Kenjeres
Institute of Physics (IOP)
1757-8981
17578981
1757-899X
1757899X
shingle_catch_all_4 Real-time control of the mould flow in a model of continuous casting in frame of the TOMOCON project
In continuous casting, the flow structure of the liquid steel in the mould and the two-phase distribution in the submerged entry nozzle (SEN) are crucial for the quality of the produced steel. In order to effectively control the flow in the mould by electromagnetic brakes (EMBrs) and the injection of gas into the SEN, even a rough knowledge of the flow structure would be very helpful. In the framework of the TOMOCON project, the contactless inductive flow tomography (CIFT) and the mutual inductance tomography (MIT) will be integrated into a control loop for slab casters. This control loop will be developed and implemented at the Mini-LIMMCAST facility, which is available at the Helmholtz-Zentrum Dresden - Rossendorf. In this paper a short overview of this project will be given.
T. Wondrak, U. Hampel, M. Ratajczak, I. Glavinic, F. Stefani, S. Eckert, D. van der Plas, P. Pennerstorfer, I. Muttakin, M. Soleimani, S. Abouelazayem, J. Hlava, A. Blishchik and S. Kenjeres
Institute of Physics (IOP)
1757-8981
17578981
1757-899X
1757899X
shingle_title_1 Real-time control of the mould flow in a model of continuous casting in frame of the TOMOCON project
shingle_title_2 Real-time control of the mould flow in a model of continuous casting in frame of the TOMOCON project
shingle_title_3 Real-time control of the mould flow in a model of continuous casting in frame of the TOMOCON project
shingle_title_4 Real-time control of the mould flow in a model of continuous casting in frame of the TOMOCON project
timestamp 2025-06-30T23:37:05.716Z
titel Real-time control of the mould flow in a model of continuous casting in frame of the TOMOCON project
titel_suche Real-time control of the mould flow in a model of continuous casting in frame of the TOMOCON project
topic ZL
uid ipn_articles_6344563