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

“…(1) has been given by Malinowski et al [34]. The solution strategy developed by Hadała et al [35] has been implemented.…”

“…In Eq. (12) the term in brackets defines the temperature difference ΔT n between two curves: T(τ) and T e (τ) always normal to the T e (τ) curve [35].…”

“…The inverse solutions to the HTC distribution over the plate surface have been obtained by minimizing the objective function developed by Hadała et al [35]:…”

“…The dimensionless temperature difference has been extended with the norm of the dimensionless temperature gradients difference. It has been shown [35] that the objective function (13) reduces in inverse solutions the HTC fluctuations resulting from the HTC maxima moving over the cooled surface in time.…”

“…Minimization of the dimensionless objective function (13) allows determining the HTC distribution over the cooled surface for low and high temperatures and temperature's gradients varying in space and time. The solution strategy for such problems has been developed by Hadała et al [35].…”

Implementation of one and three dimensional models for heat transfer coeffcient identification over the plate cooled by the circular water jets

“…(1) has been given by Malinowski et al [34]. The solution strategy developed by Hadała et al [35] has been implemented.…”

“…In Eq. (12) the term in brackets defines the temperature difference ΔT n between two curves: T(τ) and T e (τ) always normal to the T e (τ) curve [35].…”

“…The inverse solutions to the HTC distribution over the plate surface have been obtained by minimizing the objective function developed by Hadała et al [35]:…”

“…The dimensionless temperature difference has been extended with the norm of the dimensionless temperature gradients difference. It has been shown [35] that the objective function (13) reduces in inverse solutions the HTC fluctuations resulting from the HTC maxima moving over the cooled surface in time.…”

“…Minimization of the dimensionless objective function (13) allows determining the HTC distribution over the cooled surface for low and high temperatures and temperature's gradients varying in space and time. The solution strategy for such problems has been developed by Hadała et al [35].…”

Implementation of one and three dimensional models for heat transfer coeffcient identification over the plate cooled by the circular water jets

Heat Transfer Coefficient Estimation

Inverse Methodology for Estimating the Heat Transfer Coefficient in a Duplex Stainless Steel Casting