Published

2000-01-01

Ecuaciones de flujo para líquidos: desarrollo histórico y características fundamentales

DOI:

https://doi.org/10.15446/ing.investig.n45.21313

Keywords:

Ecuaciones de flujo para líquidos, Factor de fricción, Sistema hidráulico, Flujo de agua en tuberías (es)
Fluid flow equations, Friction factor, Hydraulic system, Water flow in pipes (en)

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Authors

  • Paulo César Narváez Rincón Universidad Nacional de Colombia

El desarrollo de ecuaciones para el cálculo de las variables involucradas en el transporte de fluidos a través de tuberías, ha sido objeto de numerosas investigaciones, debido a la importancia de éstas en el diseño de líneas de flujo, oleoductos y gasoductos, sistemas de distribución de agua potable y gas domiciliario en las ciudades y de fluidos en las plantas de proceso. Este artículo presenta el desarrollo histórico y las características fundamentales de las ecuaciones de flujo para líquidos, con el fin de brindar al lector un documento informativo y de consulta que le permita seleccionar cuál de las alternativas disponibles es la mejor para el problema que se va a enfrentar.

Development of mathematical relations to calculate pipe flow behaviour has been the purpose of numerous researches, because it is important in the designing of oil and gas pipelines, water and natural gas distribution systems as well as fluids distribution systems in process plants. A historical overview and the principal characteristics about equations for liquid flow problem are presented. This information allows a suitable selection and use to solve problems such pipe diameter, flow or head loss determination in liquid flow systems when a given set of conditions are met.

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References

Asthana, K. “Transformation of Moody Diagram”, Journal of the Hydraulics Division, Vol. 100, No. HY 6, June, 1974, pp. 797-808.

Barr, D. “Explicit Working for Turbulent Pipe Flow Problems”, Journal of The Hydraulics Division, Vol. 102, No. HY 5, May, 1979, pp. 667-673.

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Jain, A. “Accurate Explicit Equation for Friction Factor”, Journal of The Hydraulics Division, Vol. 85, No. HY 3, March, 1959, pp. 674-677.

Mc Allister, E. ed., Pipe Line Rules of Thumb Handbook, Gulf Publishing Company, Houston., Estados Unidos, 1993, pp. 291-293.

Moody, L. “Friction flow Factors in Pipe Flow”, Transactions, ASME, Vol. 66, November, 1944, pp. 671-678.

Moore, L. “Relationships Between Pipe Resistance Formulas”, Journal of The Hydraulics Division, Vol. 85, No. HY 3, March, 1959, pp. 25-41.

Osiadacz, A., Simulation and Analysis of Gas Networks, Gulf Publishing Company, Houston, Estados Unidos, 1987, pp. 74-76

Powell, R., “Diagram Determines Pipe Size Directly”, Civil Engineering, ASCE, Vol. 20, No. 9, September, 1950, pp.45-46.

Savic, D. and Godfrey A., "Genetic Algorithms for Least-cost Design of Water Distributions Networks", School of Engineering University of Exeter, United Kingdom, 1994.

Sotelo. G. Hidráulica General, Volumen 1, México D. F., México, 1996, pp 293-297.

Streeter, V. Wylie, E. Mecánica de los Fluidos, Octava edición, Mc Graw Hill, México D. F., México, 1988, pp. 219-225.

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Copyright (c) 2000 Paulo César Narváez Rincón

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