@article { , title = {Numerical fluid flow modelling in multiple fractured porous reservoirs.}, abstract = {This paper compares the fluid flow phenomena occurring within a fractured reservoir for three different fracture models using computational fluid dynamics. The effect of the fracture-matrix interface condition is studied on the pressure and velocity distribution. The fracture models were compared based on the variation in pressure and permeability conditions. The model was developed for isotropic and anisotropic permeability conditions. The results suggest that the fracture aperture can have a drastic effect on fluid flow. The porous fracture-matrix interface condition produces more realistic transport of fluids. By increasing the permeability in the isotropic porous matrix, the pressure drop was significantly higher in both the fracture and reservoir region. Under anisotropic conditions in the 3D fractured reservoir, the effect of the higher longitudinal permeability was found to lower the pressure in the fractured reservoir. Depending on the properties of the fractured reservoir, this study can enhance the understanding of fracture-matrix fluid interaction and provide a method for production optimisation.}, doi = {10.32604/fdmp.2020.06505}, eissn = {1555-2578}, issn = {1555-256X}, issue = {2}, journal = {Fluid Dynamics and Materials Processing}, note = {INFO COMPLETE (Info via contact 22/4/2020 LM) PERMISSION GRANTED (version = VoR; embargo = none; licence = BY; POLICY = http://www.techscience.com/fdmp/info/auth\_instru (see paragraph 12) DOCUMENT READY (VoR downloaded 23/4/2020 LM) ADDITIONAL INFO - Contact: Sheikh Islam ; Yatin Suri ; Mohamad Ghazi Droubi ; Mamdud Hossain}, pages = {245-266}, publicationstatus = {Published}, publisher = {Tech Science Press}, url = {https://rgu-repository.worktribe.com/output/899149}, volume = {16}, keyword = {Engineering - Energy, Parallel plate, Fractured porous reservoir, Porous interface, Anisotropy}, year = {2020}, author = {Suri, Yatin and Islam, Sheikh Zahidul and Stephen, Kirsten and Donald, Cameron and Thompson, Michael and Droubi, Mohamad Ghazi and Hossain, Mamdud} }