Computational modelling of industrial pulp stock chests

This paper describes a mechanism for identifying the dynamics of non-ideal mixing processes. The object is to study two of the non-ideal behaviours of agitated pulp stock chests: recirculation and channelling. An initial continuous-time model, which contains physically relevant parameters, is transf

## Abstract Agitated‐pulp chests function as low‐pass filters to reduce high‐frequency variability in pulp properties (mass concentration, freeness, and so on) ahead of many pulping and papermaking operations. Tests on both industrial and scale‐model chests have shown that their dynamic performance

Pulp and paper mill processes have certain typical features in common with other simulation objects. However, computer simulation can serve as a useful tool in the design and construction of process units and the entire mill, as well as comparison of various production and control strategies of the

## Abstract For a side‐entering impeller of diameter __D__, the clearance from the off‐wall (__E__) is characterised by __E__/__D__ and it affects the mixing quality attained in a pulp stock chest. For agitation of pulp suspensions, mixing can be characterised by the size of cavern produced by the

This paper presents application of computational modeling to four problems of industrial importance. The problems include ventilation and fire spread in highway tunnels, chemical vapor infiltration for manufacturing fiber-reinforced composites, refining hearths used for elimination of impurities in