de Wet, Pdu Plessis, JPWoudberg, S2011-03-162011-03-162010-05de Wet, P, du Plessis, JP and Woudberg, S. 2011. Application of power addition as modelling technique for flow processes: Two case studies. Chemical Engineering Science, 66(9), pp 1923-19310009-2509http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6TFK-521WB3X-4&_user=958262&_coverDate=05%2F01%2F2011&_rdoc=1&_fmt=high&_orig=gateway&_origin=gateway&_sort=d&_docanchor=&view=c&_searchStrId=1672898304&_rerunOrigin=google&_acct=C000049363&_version=1&_urlVersion=0&_userid=958262&md5=be7ff0240534a523a303b9bad581fe1c&searchtype=ahttp://hdl.handle.net/10204/4909Copyright: 2010 Elsevier. This is a post print version of the work. The definitive version is published in Chemical Engineering Science, Vol. 66(9), pp 1923-1931In many of the continuum processes typically found in chemical engineering, the functional dependency of the dependent variable is only known for large and small values of the independent variable. Exact solutions in the transitional regime are often obscure for various reasons (e.g. narrow band within which the transition from one regime to the other occurs, inadequate knowledge of the physics in this area, etc.). An established method for the matching of limiting solutions is reviewed and subsequently applied. The method regards the known solutions as asymptotes and proposes addition to a power of such asymptotes. It yields a single, adjustable correlating equation that is applicable over the entire domain. This procedure circumvents the introduction of ad hoc curve fitting measures for the different regions and subsequent, unwanted discontinuities in piece-wise fitted correlative equations for the dependent variables. Experimental data of two diverse processes, namely flow in a straight through diaphragm valve and the fluidisation of a packed bed, are analysed as case studies. Empirical results are investigated for possible asymptotic bounds where after power addition is applied to the functional dependencies. The outcome is compared to those of the empirical models and the results discussed. The procedure is revealed to be highly useful in the summarising and interpretation of experimental data in an elegant and simplistic manner. It may also, in general, aid the setup of experimental apparatus for investigation of continuum processes.enFluidisationMathematical modellingModelling techniqueSlurriesPorous mediaFlow processesChemical engineeringNon Newtonican fluidsArticlede Wet, P., du Plessis, J., & Woudberg, S. (2010). Application of power addition as modelling technique for flow processes: Two case studies. http://hdl.handle.net/10204/4909de Wet, P, JP du Plessis, and S Woudberg "Application of power addition as modelling technique for flow processes: Two case studies." (2010) http://hdl.handle.net/10204/4909de Wet P, du Plessis J, Woudberg S. Application of power addition as modelling technique for flow processes: Two case studies. 2010; http://hdl.handle.net/10204/4909.TY - Article AU - de Wet, P AU - du Plessis, JP AU - Woudberg, S AB - In many of the continuum processes typically found in chemical engineering, the functional dependency of the dependent variable is only known for large and small values of the independent variable. Exact solutions in the transitional regime are often obscure for various reasons (e.g. narrow band within which the transition from one regime to the other occurs, inadequate knowledge of the physics in this area, etc.). An established method for the matching of limiting solutions is reviewed and subsequently applied. The method regards the known solutions as asymptotes and proposes addition to a power of such asymptotes. It yields a single, adjustable correlating equation that is applicable over the entire domain. This procedure circumvents the introduction of ad hoc curve fitting measures for the different regions and subsequent, unwanted discontinuities in piece-wise fitted correlative equations for the dependent variables. Experimental data of two diverse processes, namely flow in a straight through diaphragm valve and the fluidisation of a packed bed, are analysed as case studies. Empirical results are investigated for possible asymptotic bounds where after power addition is applied to the functional dependencies. The outcome is compared to those of the empirical models and the results discussed. The procedure is revealed to be highly useful in the summarising and interpretation of experimental data in an elegant and simplistic manner. It may also, in general, aid the setup of experimental apparatus for investigation of continuum processes. DA - 2010-05 DB - ResearchSpace DP - CSIR KW - Fluidisation KW - Mathematical modelling KW - Modelling technique KW - Slurries KW - Porous media KW - Flow processes KW - Chemical engineering KW - Non Newtonican fluids LK - https://researchspace.csir.co.za PY - 2010 SM - 0009-2509 T1 - Application of power addition as modelling technique for flow processes: Two case studies TI - Application of power addition as modelling technique for flow processes: Two case studies UR - http://hdl.handle.net/10204/4909 ER -