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KLIMEŠ, L. BŘEZINA, M. MAUDER, T. CHARVÁT, P. KLEMEŠ, J. ŠTĚTINA, J.
Original Title
Dry cooling as a way toward minimisation of water consumption in the steel industry: A case study for continuous steel casting
Type
journal article in Web of Science
Language
English
Original Abstract
The steel industry represents a chain of technological processes, which consume a vast amount of energy and water, and produce a large quantity of emissions. A number of restrictions and regulations have therefore been recently imposed on the steel industry and involved processes aiming at the improvement of the use of resources, reduction of footprint in the natural environment as well as at the enhancement of overall efficiency of the steel production. In contrast to other research papers, the paper focuses on water use in a particular steelmaking process - continuous steel casting, which is used to cast more than 95% of the worldwide steel production. Approaches allowing the minimisation of water consumption are first identified and analysed. Spray cooling using once-through water and its substitution with dry cooling coupled with internally-cooled rollers by means of closed-loop water is computationally investigated. A 3D heat transfer and solidification model for continuous steel casting, which was validated with data from an actual steel plant, was used for this purpose. The results indicate that partial substitution of water spray cooling with dry cooling can provide a 48% lower once-through water use, which represents approximately a 1.5 m3/min reduction in water consumption. The annual potential for water savings at a steel plant operating three casters at 24/7 is about 2.4 Mm3.
Keywords
Steel industry; Minimisation of water consumption; Continuous steel casting; Dry cooling
Authors
KLIMEŠ, L.; BŘEZINA, M.; MAUDER, T.; CHARVÁT, P.; KLEMEŠ, J.; ŠTĚTINA, J.
Released
1. 12. 2020
ISBN
0959-6526
Periodical
Journal of Cleaner Production
Year of study
275
Number
1
State
United Kingdom of Great Britain and Northern Ireland
Pages from
123109-1
Pages to
123109-12
Pages count
12
URL
https://doi.org/10.1016/j.jclepro.2020.123109