Improved Equivalent Rock Element Model Workflow and Case Studies

Bruce Z. Shang; Gangping Xie; Yijie Zhou; Hong Zhang; Ning Dong

doi:10.1190/segam2018-2995147.1

Improved Equivalent Rock Element Model Workflow and Case Studies

Bruce Z. Shang^*
, Gangping Xie
, Yijie Zhou
, Hong Zhang
, Ning Dong

^*Corresponding author for this work

LLC
SINOPEC

Research output: Contribution to journal › Conference article › peer-review

Abstract

This abstract presents an equivalent rock element model. Its pore structure is comprised of two orthogonal components that simultaneously capture the first order effects of electric, elastic and fluid-flow phenomena. A workflow is introduced for joint modeling and prediction of multiple properties. Two sets of core measurements are used to demonstrate the validity and advantages of this method. The workflow is applied to a well-log dataset for improved log analysis and reservoir property prediction. This workflow may be extended to the prediction of reservoir properties using elastic properties derived from 3D seismic data.

Original language	English
Pages (from-to)	3663-3667
Number of pages	5
Journal	SEG Technical Program Expanded Abstracts
DOIs	https://doi.org/10.1190/segam2018-2995147.1
Publication status	Published - 27 Aug 2018
Externally published	Yes
Event	Society of Exploration Geophysicists International Exposition and 88th Annual Meeting, SEG 2018 - Anaheim, United States Duration: 14 Oct 2018 → 19 Oct 2018

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10.1190/segam2018-2995147.1

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title = "Improved Equivalent Rock Element Model Workflow and Case Studies",

abstract = "This abstract presents an equivalent rock element model. Its pore structure is comprised of two orthogonal components that simultaneously capture the first order effects of electric, elastic and fluid-flow phenomena. A workflow is introduced for joint modeling and prediction of multiple properties. Two sets of core measurements are used to demonstrate the validity and advantages of this method. The workflow is applied to a well-log dataset for improved log analysis and reservoir property prediction. This workflow may be extended to the prediction of reservoir properties using elastic properties derived from 3D seismic data.",

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doi = "10.1190/segam2018-2995147.1",

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AU - Shang, Bruce Z.

AU - Xie, Gangping

AU - Zhou, Yijie

AU - Zhang, Hong

AU - Dong, Ning

PY - 2018/8/27

Y1 - 2018/8/27

N2 - This abstract presents an equivalent rock element model. Its pore structure is comprised of two orthogonal components that simultaneously capture the first order effects of electric, elastic and fluid-flow phenomena. A workflow is introduced for joint modeling and prediction of multiple properties. Two sets of core measurements are used to demonstrate the validity and advantages of this method. The workflow is applied to a well-log dataset for improved log analysis and reservoir property prediction. This workflow may be extended to the prediction of reservoir properties using elastic properties derived from 3D seismic data.

AB - This abstract presents an equivalent rock element model. Its pore structure is comprised of two orthogonal components that simultaneously capture the first order effects of electric, elastic and fluid-flow phenomena. A workflow is introduced for joint modeling and prediction of multiple properties. Two sets of core measurements are used to demonstrate the validity and advantages of this method. The workflow is applied to a well-log dataset for improved log analysis and reservoir property prediction. This workflow may be extended to the prediction of reservoir properties using elastic properties derived from 3D seismic data.

UR - https://www.scopus.com/pages/publications/85121834469

U2 - 10.1190/segam2018-2995147.1

DO - 10.1190/segam2018-2995147.1

M3 - Conference article

AN - SCOPUS:85121834469

SN - 1052-3812

SP - 3663

EP - 3667

JO - SEG Technical Program Expanded Abstracts

JF - SEG Technical Program Expanded Abstracts

T2 - Society of Exploration Geophysicists International Exposition and 88th Annual Meeting, SEG 2018

Y2 - 14 October 2018 through 19 October 2018

ER -

Improved Equivalent Rock Element Model Workflow and Case Studies

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