by Geomodeling | Apr 10, 2017 | Articles, Featured Publications, SBED, TechBlog, Tidal Influenced Reservoirs
Three Dimensional Simulation Small-Scale Heterogeneity in Tidal Deposits Small-scale heterogeneity at the bed-set scale (ca 1 mm to 1 m) represents an important target for reservoir modelling. In particular, tidal deposits, which are typified by bi-directional... read more
by Geomodeling | Jul 4, 2014 | Articles, SBED, TechBlog, Tidal Influenced Reservoirs
SBED Software Assisted with Vertical Permeability in SAGD Project Geomodeling’s SBED product services were used for a steam assisted gravity drainage (SAGD) permeability project by an oil sands operator. Highlights of this permeability study follow, as well as a link... read more
by Geomodeling | Jan 4, 2014 | Academic Research, New from Geomodeling, SBED, TechBlog
Using SBED to investigate Permeability Modeling of Heterogeneous Reservoirs Geomodeling actively supports Universities and Consortia that have applications for our software. Three very interesting graduate student thesis projects have been completed over the past two... read more
by Geomodeling | May 28, 2013 | Academic Research, Published Case Studies, SBED
New reservoir characterization methods are needed to integrate multiscale exploration and development data, particularly at the interface between well and field models. In this paper, we illustrate a novel workflow involving high-resolution near-wellbore modeling... read more
by Geomodeling | Apr 30, 2012 | Academic Research, Featured Publications, Published Case Studies, SBED, Tidal Influenced Reservoirs
The major challenge in reservoir characterization is to estimate the effective porosity and the permeability of the reservoir due to reservoir heterogeneity. Often the vertical and the horizontal permeability are not considered separately in 3D geo-cellular models and... read more
by Geomodeling | Mar 31, 2012 | Fluvial Reservoirs, New from Geomodeling, SBED, Shale and Tight Sand Reservoirs, Tidal Influenced Reservoirs
SBED™ Biogenic Structure Modeling accurately simulates the activities of burrowing organisms on reservoir facies at the lamina scale and estimates their effects on petrophysical properties using flow-based upscaling. Bioturbation within a substrate can add to... read more
