Day 2 Thu, October 20, 2016 2016
DOI: 10.2118/181207-ms
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Experimental and Numerical Simulation of Combined Enhanced Oil Recovery with In Situ Upgrading in a Naturally Fractured Reservoir

Abstract: The purpose of this research work is to show laboratory experiments conducted at 1500 psi and 350°C, experimentally simulating a reservoir located in the Gulf of Mexico. The experiments conducted used a novel process that involved a hot fluid to be injected with an ultra-dispersed nano catalyst. The results obtained showed that API gravity can be improved permanently as well as its viscosity, with the advantage of no coke or solid deposits formation. Laboratory analyses showed that by using this new process it… Show more

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Cited by 12 publications
(3 citation statements)
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“…Bench scale experiments suggest that a volumetric hydrogen‐to‐vacuum residue ratio of 120, at standard conditions, offers the best balance between conversion and yield on one side and stability on the other side . Hovsepian et al pointed out that severe conversions yield unstable synthetic oils that have high potential for asphaltene precipitation as an adverse outcome.…”
Section: Modelling Methodologymentioning
confidence: 99%
See 1 more Smart Citation
“…Bench scale experiments suggest that a volumetric hydrogen‐to‐vacuum residue ratio of 120, at standard conditions, offers the best balance between conversion and yield on one side and stability on the other side . Hovsepian et al pointed out that severe conversions yield unstable synthetic oils that have high potential for asphaltene precipitation as an adverse outcome.…”
Section: Modelling Methodologymentioning
confidence: 99%
“…Also, this method has an inherent advantage over the practiced methods for oil production and recovery, such as steam assisted gravity drainage (SAGD), in that it produces a transportable crude oil with pipeline specification that does not need a diluent. As well, the exothermic nature of the reactions provides a platform for the self‐sustainability of the catalytic reactions and also leads to temperature alteration that helps expel the confined oil via permanent expansion‐contraction . In addition, the produced gases act like a solvent and they also apply a mechanical push for further oil recovery, enhancing the oil recovery factor by 36 %, as compared to SAGD …”
Section: Introductionmentioning
confidence: 99%
“…The ISUT process was initially designed for sand reservoirs but has been explored for use in fractured carbonate reservoirs. It leverages the reservoir as a reactor, anchoring metallic ultradispersed catalysts onto minerals for in situ upgrading. Vacuum residue (VR) serves as the carrier fluid, containing heat, catalysts (100–700 ppm metals), and hydrogen (50–300 std cm 3 per std cm 3 of VR) .…”
Section: Introductionmentioning
confidence: 99%