N. J. Rodriguez scite author profile

SUMMARYCapacitance methods are popular methods used for solidiÿcation modelling. Unfortunately, they su er from a major drawback in that energy is not correctly transported through elements and so providing a source of inaccuracy. This paper is concerned with the development and application of a control volume capacitance method (CVCM) to problems where mass transport and solidiÿcation are combined. The approach adopted is founded on theory that describes energy transfer through a control volume (CV) moving relative to the transporting mass. An equivalent governing partial di erential equation is established, which is designed to be transformable into a ÿnite element system that is commonly used to model transient heat-conduction problems. This approach circumvents the need to use the methods of Bubnov-Galerkin and Petrov-Galerkin and thus eliminates many of the stability problems associated with these approaches. An integration scheme is described that accurately caters for enthalpy uxes generated by mass transport. Shrinkage e ects are neglected in this paper as all the problems considered involve magnitudes of velocity that make this assumption reasonable. The CV approach is tested against known analytical solutions and is shown to be accurate, stable and computationally competitive.

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Solidification modelling with a control volume method on domains subjected to viscoplastic deformation

Davey

Rodriguez

2002

Applied Mathematical Modelling

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Transformation of a sensor or actuator system into a unitary gain element

Feijoo¹,

Worden

Stanway

et al. 2007

Mechanical Systems and Signal Processing

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The control volume formulation to model the convective–diffusive unsteady heat transfer over the 1-D semi-infinite domain

Rodriguez

Davey

Gaytan

2007

Computer Methods in Applied Mechanics and Engineering

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N. J. Rodriguez

Assessment of coconut fibre insulation characteristics and its use to modulate temperatures in concrete slabs with the aid of a finite element methodology

A control volume capacitance method for solidification modelling with mass transport

Solidification modelling with a control volume method on domains subjected to viscoplastic deformation

Transformation of a sensor or actuator system into a unitary gain element

The control volume formulation to model the convective–diffusive unsteady heat transfer over the 1-D semi-infinite domain

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