Improved Vinegar & Wellington Calibration for Estimation of Fluid Saturation and Porosity from CT Images for a Core Flooding Test under Geologic Carbon Storage Conditions
Publication date: Available online 29 June 2019Source: MicronAuthor(s): Xiuxiu Miao, Yan Wang, Liwei Zhang, Ning Wei, Xiaochun LiAbstractX-ray computed tomography (CT) of fluid flow in formation rocks is an important characterization technique in geologic carbon sequestration research to provide insight into the migration and capillary trapping of CO2 under reservoir conditions. An improved calibration method adapted from traditional Vinegar & Wellington calibration is proposed to map the 3D pore and fluid distributions from the CT images of CO2/brine displacement flooding. Similar to Vinegar & Wellington calibration, the proposed method adopts the linear scaling law of CT number transformation to mass density. However, different from Vinegar & Wellington calibration that uses a 100% brine-saturated core image and a 100% CO2-saturated core image as references to calculate CO2 and brine saturations at all time steps, the proposed method uses the CT numbers of CO2 and brine to calculate the incremental of CO2 and brine saturations from time step i to time step i +1. The method is intended for cases in which the two 100% brine saturation and 100% CO2 saturation images can not be successfully obtained. Overall, the improved calibration proposed by this study presents more reasonable results of CO2 and brine distribution in a Berea sandstone core, as compared to traditional Vinegar & Wellington calibration. The reconstructed porosity image agrees with the laminated structure of th...
Source: Micron - Category: Biology Source Type: research
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