B. Hadała scite author profile

B. Hadała

5Publications

69Citation Statements Received

9Citation Statements Given

How they've been cited

119

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Affiliations

AGH University of Krakow, ORCID

Publications

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Influence of Heat Transfer Boundary Conditions on the Temperature Field of the Continuous Casting Ingot

Malinowski¹,

Telejko²,

Hadała³

2012

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Steel solidification in the continuous casting process starts in the mould, follows in the secondary cooling zones and finishes under air cooling conditions. Casting technology requires very effective heat transfer from the strand surface to the water cooling system. Design and control of the casting process is possible if the ingot temperature is known with a suitable accuracy. Measurements of the ingot temperature are complicated and expensive and due to these reasons are not common in practice. Numerical simulation have to be used to provide data which can be used to design and control of the ingot solidification. In the case of the temperature field modeling heat transfer boundary conditions have to be specified. In the literature wide range of formulas can be found and this may lead to essential errors in the heat transfer coefficient determination. In the paper the selected formulas have been employed in the finite element model to compute the ingot temperature field in the mould and secondary cooling zones. It has been shown that inaccurate determination of the heat flux transferred from the ingot surface to the mould leads to essential errors in the determination of the ingot temperature and solidification. Therefore empirical formulas or complex heat transfer models at ingot -mould interface ought to be employed in finite element models.Keywords: heat transfer, boundary conditions, continuous casting Krzepnięcie stali w procesie ciągłego odlewania zachodzi w krystalizatorze i strefie chłodzenia wtórnego. Technologia narzuca konieczność bardzo intensywnego odprowadzania ciepła od ciekłej stali, warstwy krzepnącej i zakrzepłej stali. Do prawidłowego prowadzenia odlewania konieczna jest znajomość wielu parametrów technologicznych, z których jednym z najważniejszych jest temperatura wlewka ciągłego. Bezpośrednie pomiary charakterystycznych dla COS wielkości w czasie krzepnięcia i stygnięcia wlewka są bardzo kosztowne oraz czasochłonne i z tych powodów nie znajdują szerszego zastosowania praktycznego. Najczęściej dane do analizy wpływu różnych parametrów wejściowych na proces krzepnięcia dostarczają symulacje numeryczne. Do prawidłowego ich wykonania potrzebne jest jednak określenie parametrów procesu. W przypadku temperatury bardzo ważną rolę odgrywają warunki brzegowe opisujące wymianę ciepła między powierzchnią wlewka ciągłego i otoczeniem. Ich niepoprawne przyjęcie może skutkować niedokładnym wyznaczeniem pola temperatury, a w konsekwencji błędami obliczeń pozostałych parametrów procesu. W literaturze często spotykane są różne formuły pozwalające na wyliczenie współczynnika przejmowania ciepła lub gęstości strumienia ciepła na powierzchni wlewka ciągłego. W pracy przedstawiono przykłady obliczeń pola temperatury dla wybranych zależności opisujących wymianę ciepła wlewka z otoczeniem w strefie krystalizatora i chłodzenia wtórnego. Przedstawiono wyniki symulacji oraz ich analizę. Obliczenia wykonano z zastosowaniem autorskiego modelu matematycznego i numerycznego wymiany ciepła oraz oprogramowania wykorzys...

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Dedicated three dimensional numerical models for the inverse determination of the heat flux and heat transfer coefficient distributions over the metal plate surface cooled by water

Malinowski

Telejko

Hadała

et al. 2014

International Journal of Heat and Mass Transfer

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The Influence of Thermal Stresses and Strand Bending on Surface Defects Formation in Continuously Cast Strands

Hadała¹,

Cebo-Rudnicka²,

Malinowski³

et al. 2011

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The Influence of Thermal Stresses and Strand Bending on Surface Defects Formation in Continuously Cast StrandsImprovement of slab surface quality is a very important goal in continues casting process of steel. It is closely coupled with casting line productivity and tendency to increase casting speed. In such a case rapid cooling of strand surface mast be employed. It results in thermal stresses development and formation of surface cracks if casting speed, cooling conditions or the arc of casting machine are not appropriate. The strain and stress fields in continuously cast strand have been determined based on the developed thermo-mechanical model and finite element software. It allowed to calculate variation of selected criterions integrals over the hole casting line starting from solidification process in the mould and ending at cutting section. Steady solution to heat transfer equation has been used to calculate strand temperature field. Mould temperature has been calculated from the three dimensional transient model. Finite element method has been employed to build steady and transient heat transfer models. Finite element solution accuracy to the temperature field has been improved. New algorithm of the solidification heat handling has been developed to stabilize a steady solution to the heat transport equation. Damageability of the strand has been evaluated based on four fracture criterions.

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Inverse method implementation to heat transfer coefficient determination over the plate cooled by water spray

Malinowski

Cebo-Rudnicka

Telejko

et al. 2014

Inverse Problems in Science and Engineering

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Solution strategy for the inverse determination of the specially varying heat transfer coefficient

Hadała

Malinowski

Szajding

2017

International Journal of Heat and Mass Transfer

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B. Hadała

Influence of Heat Transfer Boundary Conditions on the Temperature Field of the Continuous Casting Ingot

Dedicated three dimensional numerical models for the inverse determination of the heat flux and heat transfer coefficient distributions over the metal plate surface cooled by water

The Influence of Thermal Stresses and Strand Bending on Surface Defects Formation in Continuously Cast Strands

Inverse method implementation to heat transfer coefficient determination over the plate cooled by water spray

Solution strategy for the inverse determination of the specially varying heat transfer coefficient

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