A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Micro‐Petrophysical Experiments Via Tomography and Simulation
Micro‐Petrophysical experiments
Increasingly, x‐ray micro‐tomography is being used in the observation and prediction of petrophysical properties. The profile of a tomography facility described in this chapter was specifically assembled to develop the associated hardware to a point where it feeds the highest quality data feasible into a research program in granular and porous materials. The chapter presents a range of petrophysical measurements, both virtual and actual, which use tomography as a starting point and matching computer simulation to lab experiments as the goal. Specific systems investigated will include the tracking of acidic dissolution in carbonate sediments, the mapping of residual hydrocarbons after waterflooding into mixed‐wet vs. water‐wet pore space in reservoir rocks, coincident multi‐modal, multiscale imaging of porosity (nm to mm) in carbonate core and monitoring the effects of brine concentration on brine‐rock interactions. computerised tomography; dissolving; porosity; rocks; virtual machines
Micro‐Petrophysical Experiments Via Tomography and Simulation
Micro‐Petrophysical experiments
Increasingly, x‐ray micro‐tomography is being used in the observation and prediction of petrophysical properties. The profile of a tomography facility described in this chapter was specifically assembled to develop the associated hardware to a point where it feeds the highest quality data feasible into a research program in granular and porous materials. The chapter presents a range of petrophysical measurements, both virtual and actual, which use tomography as a starting point and matching computer simulation to lab experiments as the goal. Specific systems investigated will include the tracking of acidic dissolution in carbonate sediments, the mapping of residual hydrocarbons after waterflooding into mixed‐wet vs. water‐wet pore space in reservoir rocks, coincident multi‐modal, multiscale imaging of porosity (nm to mm) in carbonate core and monitoring the effects of brine concentration on brine‐rock interactions. computerised tomography; dissolving; porosity; rocks; virtual machines
Micro‐Petrophysical Experiments Via Tomography and Simulation
Micro‐Petrophysical experiments
Alshibli, Khalid A. (editor) / Reed, Allen H. (editor) / Kumar, M. (author) / Lebedeva, E. (author) / Melean, Y. (author) / Madadi, M. (author) / Sheppard, A. P. (author) / Varslot, T. K. (author) / Kingston, A. M. (author) / Latham, S. J. (author)
2010-03-01
16 pages
Article/Chapter (Book)
Electronic Resource
English
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