Evaluation of Effective Thickness of Shale Layers of Multi-layer Caprock System

論文翻譯標題: ?岩系統內有效阻隔二氧化碳洩漏之層間頁岩厚度評估
  • 邱 一庭

學生論文: Master's Thesis

摘要

Carbon capture and storage (CCS) is considered a promising method of mitigating CO2 emissions into the atmosphere Geological storage is the most feasible way to permanently store CO2 Saline aquifers are thought to have the greatest storage capacity of all geological storage sites In the past a caprock with extremely - low permeability and dense stacking was a typical feature above a sealable geological storage reservoir A single and thick shale layer was usually considered the best option for caprock However there are many types of shale layers that are usually interbedded with permeable layers such as shaly-sand and silt This means that these formations are composed of shale and other lithology This is called a multilayered caprock system in this study Except for shale with extremely - low permeability the permeable layers can provide efficient sealing Thus the purpose of this study was to investigate the sealing efficiency of a multilayered caprock system Because a multilayered caprock system is shale interbedded with permeable layers the system’s sealing efficiency is calculated as the sum of the sealing efficiency of each layer In this study caprock thickness and ScCO2 (supercritical CO2) plume breakthrough time at the caprock are parameters that affect sealing efficiency The ScCO2 plume breakthrough time of was calculated using an analytical method derived in this study The analytical method used was the frontal advance equation at constant pressure difference derived from Buckley-Leverett theory in this study Because the ScCO2 plume accumulates beyond the caprock and thus concentrates the pressure when the ScCO2 plume pressure is larger than the threshold pressure at the caprock formation the ScCO2 plume will invade the caprock Therefore the frontal advance equation at a constant pressure difference was derived and then initially applied to ScCO2 migration at the caprock In addition Computer Modelling Group Ltd ’s (CMG) - GEM compositional simulator (CMG-GEM) was used to verify the correction of the analytical solution mentioned above Two fundamental models (horizontal and vertical) were built to validate the analytical solution for ScCO2-water two-phase flow respectively After the solution had been validated we proposed a safety index plot derived from the analytical solution This plot is convenient for determining the sealing efficiency at the caprock Finally we applied the analytical solution and safety index plot in a field case to observe and discuss the results We found that our analytical solution could be used to calculate the correct ScCO2 plume breakthrough time at the caprock Moreover our proposed safety index plot can be considered a graphical solution the thickness of the caprock and the ScCO2 breakthrough time can be derived from this plot and then the sealing efficiency at the caprock can be determined
獎項日期2017 九月 1
原文English
監督員Bieng-Zih Hsieh (Supervisor)

引用此

Evaluation of Effective Thickness of Shale Layers of Multi-layer Caprock System
一庭, 邱. (Author). 2017 九月 1

學生論文: Master's Thesis