Numerical simulation of flow, temperature and composition variation in the snout and sink roll region of continuous galvanizing baths

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Proceedings titleMaterials Science and Technology Conference and Exhibition 2013, MS & T 2013
ConferenceMaterials Science and Technology Conference and Exhibition 2013, October 27-31 2013, Montreal, QC, Canada
SubjectContinuous galvanizing; Dross minimization; Numerical simulation; Snout pumping
AbstractThe snout and sink roll regions of a continuous galvanizing operation are of critical importance in achieving automotive quality coated steel products. Entrainment of dross particles into the deposited coating originating in the regions of the snout and at the pinch between the strip and the sink roll contribute to the difficulty of maintaining a defect free surface. Previous numerical models have described the flow,temperature and compositional variations in these regions in a conventional operation. In order to optimize the coating quality new numerical simulations were carried out by introducing a pumping system which can direct flow to these specific areas. The effect of circulating bath composition liquid zinc using an industrially tested pumping system directed to the inside surface of the strip within the snout and into the pinch area were analysed. Velocity, temperature and compositional gradients were calculated and compared to the standard configuration not using pumps. The results indicated that the quality of the coated steel can be improved using this system.
Publication date
PublisherAssociation for Iron & Steel Technology
AffiliationNational Research Council Canada; Automotive and Surface Transportation
Peer reviewedYes
NPARC number23000577
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Record identifier7b901217-265a-41cc-acd5-326f13711243
Record created2016-08-03
Record modified2016-08-03
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