Gomes, J.L.M.A.Pavlidis, DSalinas, PXie, ZPercival, J. R.Melnikova, Y.Pain, C. C.Jackson, M. D.2017-02-242017-02-242017-02-20Gomes, J L M A, Pavlidis, D, Salinas, P, Xie, Z, Percival, J R, Melnikova, Y, Pain, C C & Jackson, M D 2017, 'A Force-Balanced Control Volume Finite Element Method for Multi-Phase Porous Media Flow Modelling', International Journal for Numerical Methods in Fluids, vol. 83, no. 5, pp. 431–445 . https://doi.org/10.1002/fld.42750271-2091ORCID: /0000-0003-0845-2274/work/158672049http://hdl.handle.net/2164/8240Dr D. Pavlidis would like to acknowledge the support from the following research grants: Innovate UK ‘Octopus’, EPSRC ‘Reactor Core-Structure Re-location Modelling for Severe Nuclear Accidents’) and Horizon 2020 ‘In-Vessel Melt Retention’. Funding for Dr P. Salinas from ExxonMobil is gratefully acknowledged. Dr Z. Xie is supported by EPSRC ‘Multi-Scale Exploration of Multi-phase Physics in Flows’. Part funding for Prof Jackson under the TOTAL Chairs programme at Imperial College is also acknowledged. The authors would also like to acknowledge Mr Y. Debbabi for supplying analytic solutions.23945297engCVFEM mixed formulationdiscontinuous Galerkinflux-limitinghigh-order methodmulti-phase flowsporous media flowsTK Electrical engineering. Electronics Nuclear engineeringEngineering and Physical Sciences Research Council (EPSRC)TKJournal article10.1002/fld.4275835