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Title: Computational modelling of two-phase porous flow: "effects of temperature on dynamic co-efficients"
Authors: Hanspal, Navraj S.
Das, Diganta Bhusan
Keywords: Darcy’s Law
Pc-S-Kr relationships
Dynamic coefficient
Perchloroethylene (PCE)-Water system
STOMP
Issue Date: 2009
Publisher: © The authors
Citation: HANSPAL, N.S. and DAS, D.B., 2009. Computational modelling of two-phase porous flow: "effects of temperature on dynamic co-efficients". AIChE Spring National Meeting and 5th Global Congress on Process Safety, 26th-30th April 2009, Tampa Florida, USA. 26-26 November
Abstract: Traditional continuum scale models for multiphase flow in porous media rely upon “Capillary Pressure, Saturation & Relative Permeability” relationships which do not necessarily illustrate the dynamic capillary pressure effects on the flow behaviour. As such, simulators for multiphase flow in porous media must include additional terms(s) associated with dynamic capillary pressures. For such reasons, investigations targeting at measurements of dynamic coefficients and its dependency on various physical parameters are of great interest. In this work we therefore examine the dependence of the dynamic coefficient τ on temperature T by carrying out quasi-static and dynamic flow simulations for an immiscible perchloroethylene (PCE)-water system exhibiting a drainage process. Simulations are carried out using a twophase porous media flow simulator STOMP for a range of temperatures between 20C-80C on 3-D cylindrical domains which correspond to laboratory scale domain set-ups used previously by the authors. Results are presented for coarse and fine sands at 40C and are interpreted by examining the correlations between dynamic coefficient(s) and temperature, time period(s) required for attaining residual saturation and the dynamic aqueous/non-aqueous phase saturation and capillary pressure plots. Our simulations maintain a continuity from our previous work and reduce the inconsistencies associated with the dependency of dynamic coefficient(s) on temperature which should subsequently enable the users to carry out computationally economical and reliable modelling studies at various length scales of observation.
Description: Details of this conference can be found at http://aiche.confex.com/aiche/s09/techprogram/MEETING.HTM where this paper has the title: "Dynamic effects for two-phase flows in porous media: temperature effects on dynamic coefficient"
Version: Accepted for publication
URI: https://dspace.lboro.ac.uk/2134/5000
Appears in Collections:Conference Papers and Presentations (Chemical Engineering)

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