Modelado de Secaderos Rotatorios en Isocorriente
Enviado: 14-09-2017
|Aceptado:
|Publicado: 08-10-2009
Descargas
Palabras clave:
secadero rotatorio, modelado, ecuaciones diferenciales, parámetros distribuidos, coeficientes de correlación
Agencias de apoyo:
Ministerio de Ciencia y Tecnología (DPI2007-64697)
Resumen:
Citas:
Arjona, R. (1997). “Análisis del Proceso de Secado de Alpeorujo”. Proyecto Fin de Carrera. Escuela Superior de Ingenieros. Universidad de Sevilla.
Arjona, R., García, A, Ollero, P. (1999). “The Drying of Alpeorujo, a Waste Product of the Olive Oil Mill Industry”. Journal of Food Engineering 41, 229–234.
Brasil, G.C., Seckler M.M. (1988). “A Model for the Rotary Drying of Granular Fertilizers”. Proceeding 6th International Drying Symposium pp. 247–256.
Britton, P.F., M.E. Sheehan and P.A. Schneider (2006). “A Physical Description of Solids Transport in Flighted Rotary Dryers”. Powder Technology pp. 153–160.
Deich, V. G., Stalskii, V.V. (19 75). “Optimum Control of Dr ying Proc ess es in a Rotar y Drum Dryer”. Theo re tical Founda tions of Chemical Enginee ring. 9(1), 85 –90.
Douglas P. L., Kwade, A. Lee, P. L., Mallick, S. K. (1992). “Simulation of a Rotar y Dryer for Sugar Crystalline”. Drying Technolog y 11(1), 129 –155.
Duchesne, C., Thibault, J., Bazin, C. (1997). “Mod elling and D ynamic Simulation of an Industrial Rotary Dryer”. Dev. Chem. Eng. Mineral Process 5(3/4), 155 –182.
Elmquist, H., Brück, D. y Otter, M. (1996). “Dymola. Dynamic Modeling Laboratory. User´s Manual”. Dynasim A B.
Friedman, S. J., Marshall, W. R. Jr. (1949 a). “Studies in Rotary Dryer -Part I. Holdup and Dusting”. Chem. Ing. P rogress 45(8), 482 –493.
Friedman, S. J., Marshall, W. R. Jr. (1949 b). “Studies in Rotary Dryer -Part II. Heat and Mass Transfer”. Chem. Ing. Progress 45(9), 5 7 3 –588.
Liptak, B. G. (1998). “Optimizing Dryer Through Better Control”. Chemical Engineering.
Liptak, B. G. (1999). “Op timiza tion of Industrial Processes”. CRC Press.
Lobato, F. S., V. St effen Jr., E. B. Arruda and M.A. S. Barrozo (2008). “Estimation of Drying Parameters in Rotary Dryers using Differencial Evolution”. 6th International Conference on Inverse Problems in Engineering: Theory and Practice 135, 12063.
McCormick, P. Y. (1962). “Gas Velocity Effects on Heat Transfer in Direct Heat Rotary Dryers”. Chem. Eng. Progress 58, 57–62.
Myklestad, O. (1963 a). “Heat and Mass Transfer in Rotary Dryers”. Chem. Eng. Progress Symp. Series 59), 129 –137.
Myklestad, O. (1963 b). “Moisture Control in Rotary Dryer”. Chem. Eng. Progress Symp. Series 59), 138 –144.
Perry, R. H., Green, D.W. (1997). “Perry’s Chemical Engineers Handbook”. McGraw-Hill.
Reay, D. (1979). “Theory in the Design of Dryers”. Chem. Eng. pp. 501 –506.
Savaresi, S. M., R. R. Bitmead and R. Peirce (2001). “On Modelling and Control of a Rotary Sugar Dryer”. Control Engineering Practice pp. 249 –266.
Schofield, F. R., Glikin, P. G. (1962). “Rotary Dryers and Coolers for Granular Fertilizers”. Trans. Chem. Eng. (40), 183 –190.
Sharples, K., Glikin, P. G., Warne, R. (1964). “Computer Simulation of Rotary Dryers”. Transactions of the Institution of Chemical Engineers 42, 255 –284.
Sheehan, M. E., P. F. Britton and P.A. Schneider (2005). “A model for Solids Transport in Flighted Rotary Dryers Based on Physical Considerations”. Chemical Engineering Science pp. 4171 –4182.
Thorp e, G. R. (19 72). “Th e Mathematical Modelling of Dryers”. Ph. D. Thesis, University of Nottingham.