This study presents an analysis about airflow in ducts with multiple outlets that are identified as blow boxes, when installed in pulp dewatering machines. These boxes work in the drying process leading heated air to a set of nozzles that produce air jets that are impinged against the pulp sheet. It is performed literature review about drying processes and equipment, with a focus on air flow, methods for numerical solution of airflows, their models and parameters, and semi-empirical approach about airflow at the outlets of the duct. The airflow inside the blow box and the output jets are studied by numerical simulation, and semi-empirical model. It is proposed two alternative geometries for these ducts in order to guarantee the greatest possible uniformity in flow rate, and in the average velocity of air jets. In the first alternative is considered that the cross section of the blow box remains constant. In the second one it is considered that the cross section is reduced uniformly along the blow box. An experimental study about the behavior of the airflow in blow boxes, using scaled models, presents results that can validate a set of numerical values obtained in the simulation and also establish characteristics for the drying process. For each alternative two conditions of airflow are adopted. The results obtained through numerical simulation and semi-empirical modeling validates an appropriate geometrical profile for the blow box in order to set the values of average speed within the range required by the drying process. One of the principal results, obtained for the case of boxes with 275 holes, was the average speed within the range of 32,5 m/s and 33,1 m/s, this range represents a great result in tterms of balance and uniformity of air flow.
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