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Fully coupled solution of the equations for incompressible recirculating flows using a penalty-function finite-difference formulation (1990)

Braaten, M. E. ; Patankar, S. V.

Springer

Computational mechanics 6 (1990), S. 143-155

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ISSN: 1432-0924

Source: Springer Online Journal Archives 1860-2000

Topics: Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics

Notes: Abstract This paper describes two new solution algorithms for steady recirculating flows that use a penalty formulation to eliminate the pressure from the finite difference form of the governing equations. One algorithm uses successive substitution to linearize the equations, while the other employs the Newton-Raphson linearization. In both cases, the equations are solved in a fully coupled manner using a sparse matrix form of LU decomposition. The D'Yakonov iteration is used to avoid unnecessary factorizations of the coefficient matrix, significantly improving the computational efficiency. The Newton-Raphson linearization leads to faster convergence, but the execution times of the two methods are comparable. The algorithms converge rapidly and are robust to changes in grid size and Reynolds number. In a number of laminar two-dimensional flows, the new methods proved to be two to ten times faster than some conventional iterative methods.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00350519

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Computationally two-dimensional finite-difference model for hollow-fibre blood-gas exchange devices (1991)

Baker, D. A. ; Holte, J. E. ; Patankar, S. V.

Springer

Medical & biological engineering & computing 29 (1991), S. 482-488

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ISSN: 1741-0444

Keywords: Augmented diffusion ; Finite-difference model ; Gas exchange ; Oxygenator

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology , Medicine

Notes: Abstract The goal of this research is to develop a predictive model with good absolute accuracy for blood-gas exchange devices. The proposed model, unlike existing models, is able to predict gas transfer to blood flowing outside oxygenating fibres without experimental data. The proposed model uses a finite-difference numerical technique to solve computationally two-dimensional gas exchange problems such as gas transfer to blood outside hollow fibres. The model is compared to bovine and human experimental data from the small test cells with microporous polypropylene fibres. The test cell flow rates range from 1 m litre min−1 to 5 m litre min−1 for a 72-fibre device. Shear-augmented oxygen diffusion appears to be present, although good accuracy is obtained with a nonaugmented diffusion model, particularly at lower flows. The maximum deviation of oxygen saturation predicted by a shearaugmented bovine blood model from the experimental regression line was 1·7 per cent.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02442318

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