## Chemical Engineering: Modelling, Simulation and SimilitudeA description of the use of computer aided modeling and simulation in the development, integration and optimization of industrial processes. The two authors elucidate the entire procedure step-by-step, from basic mathematical modeling to result interpretation and full-scale process performance analysis. They further demonstrate similitude comparisons of experimental results from different systems as a tool for broadening the applicability of the calculation methods. Throughout, the book adopts a very practical approach, addressing actual problems and projects likely to be encountered by the reader, as well as fundamentals and solution strategies for complex problems. It is thus equally useful for student and professional engineers and chemists involved in industrial process and production plant design, construction or upgrading. |

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Chemical Engineering: Modeling, Simulation and Similitude Tanase Gh. Dobre,José G. Sanchez Marcano No preview available - 2007 |

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bubbles calculation cess characterize chemical engineering coefficients complete computed concentration connection consider constant corresponding dependent variable described device differential equations diffusion dimensional analysis dimensionless groups dispersion displacement distribution dynamic evolution example exit experimental experiments expression factors Figure filtration flow model flow rate fluid function given heat transfer identify important input interaction Kalman filter kinetics mass transfer mathematical model matrix mean value membrane method mixing modelling and simulation molecular MWPB observe obtained operation output packed bed parameters particle particularization phenomena pi groups pi terms PN i¼1 porous pressure probability problem procedure process variables random variable reactant reaction reactor regression relation relationship residence residual variance respect s2rz selection shows solid solution species statistical model step stochastic model stochastic process surface Table temperature tion transformation transport transport phenomena univocity conditions variance vector velocity