Presentation is loading. Please wait.

Presentation is loading. Please wait.

Dissolution and Precipitation Reactions Between the Madison Limestone and Supercritical CO₂: Implications for Carbon Capture and Storage in Southwest.

Published byVirgil Williamson Modified over 6 years ago

Similar presentations

Presentation on theme: "Dissolution and Precipitation Reactions Between the Madison Limestone and Supercritical CO₂: Implications for Carbon Capture and Storage in Southwest."— Presentation transcript:

1 Dissolution and Precipitation Reactions Between the Madison Limestone and Supercritical CO₂: Implications for Carbon Capture and Storage in Southwest Wyoming Steven Levesque

2 Background-Carbon Capture and Storage Objectives and Hypothesis
Outline Background-Carbon Capture and Storage Objectives and Hypothesis Geology: Rock Springs Uplift Experimental Approach Results Summary and Conclusions

3 Background- Carbon Capture and Storage
What is Carbon Capture and Storage? Storage of anthropogenic CO₂ CO₂ is injected within the subsurface into a reservoir rock Ambient conditions allow for supercritical phase of CO₂ CO₂ migration is inhibited by an impermeable cap rock Metz et al. 2005

4 Objectives and Hypothesis
Experimentally simulate a geologic CO₂ storage reservoir Observe any mineral precipitation/dissolution from injection of supercritical CO₂ Hypothesis Reactions among the reservoir rock, brine, and supercritical CO₂ will cause mineral precipitation/dissolution

5 Geology: Rock Springs Uplift
Surdam and Jiao 2007 Located in southwest Wyoming Doubly plunging anticline Modified from Chopping et al 2012

6 Geology: Rock Springs Uplift
Surdam and Jiao 2007 Madison Limestone (12,350 ft)

7 Madison Limestone (12,350 ft) Mg-rich Dolomite ~10% porosity
Surdam and Jiao 2007 Madison Limestone (12,350 ft) Mg-rich Dolomite ~10% porosity

8 Experimental Approach
Purpose: Simulate in-situ reservoir conditions AE Bolted Closure Pressure Vessel (300mL) Duration: 354 hours Temperature: 100˚C Pressure: 345 Bars ~150 mL Brine g Rock, 20:1 water-rock ratio Modified from Wang et al 2013

9 XRD Analysis

10 FE-SEM Textural Changes
Unreacted Reacted

11 Water Chemistry Evolution & pH vs. Time

12 Summary and Conclusions
Dolomite dissolution reactions Mineral surface texture changes Increase in Mg and Ca throughout the experiment

13 Future Work Increase the duration of the experiments
Geochemical modeling to predict in-situ changes in pH and mineral assemblages Porosity and permeability analyses Trace element analyses

14 Acknowledgements Dr. John Kaszuba – Overall mentorship
Norbert Swoboda-Colberg –XRD analyses Susan Swapp –SEM assistance Ryan Herz-Thyhsen, Alexa Socianu, Mary Kate McCarney, Quin Miller, Michael Schedel and Rhowe Stefanski – Lab assistance Janet Dewey – Water chemistry analyses Fred McLaughlin and Scott Quillinan (Carbon Management Institute) – Providing rock samples and other necessary data

Download ppt "Dissolution and Precipitation Reactions Between the Madison Limestone and Supercritical CO₂: Implications for Carbon Capture and Storage in Southwest."

Similar presentations

Solution of Benchmark Problems for CO 2 Storage Min Jin, Gillian Pickup and Eric Mackay Heriot-Watt University Institute of Petroleum Engineering.

Solution of Benchmark Problems for CO 2 Storage Min Jin, Gillian Pickup and Eric Mackay Heriot-Watt University Institute of Petroleum Engineering.
Impact of capillary trapping on geological CO2 storage

Impact of capillary trapping on geological CO2 storage
School of Earth and Environment Geochemical reaction rates following porewater acidification Murray Allan Alison Turner Bruce Yardley www.see.leeds.ac.uk.

School of Earth and Environment Geochemical reaction rates following porewater acidification Murray Allan Alison Turner Bruce Yardley
Simulation of single phase reactive transport on pore-scale images Zaki Al Nahari, Branko Bijeljic, Martin Blunt.

Simulation of single phase reactive transport on pore-scale images Zaki Al Nahari, Branko Bijeljic, Martin Blunt.
Screening of a Sulfonamides Library by Supercritical Fluid Chromatography Coupled to Mass Spectrometry (SFC-MS). Preliminary properties-retention study.

Screening of a Sulfonamides Library by Supercritical Fluid Chromatography Coupled to Mass Spectrometry (SFC-MS). Preliminary properties-retention study.
Geologic Storage of CO 2 : Leakage Pathways and Environmental Risks Michael A. Celia, Catherine A. Peters, and Stefan Bachu Princeton University and Alberta.

Geologic Storage of CO 2 : Leakage Pathways and Environmental Risks Michael A. Celia, Catherine A. Peters, and Stefan Bachu Princeton University and Alberta.
TTI Regulatory and Permitting Issues For Geologic Sequestration of CO2 Presentation to the West Coast Regional Carbon Sequestration Partnership September.

TTI Regulatory and Permitting Issues For Geologic Sequestration of CO2 Presentation to the West Coast Regional Carbon Sequestration Partnership September.
Safety and Security for CO 2 Geological Storage while CO 2 /H 2 O/Rock Reaction Bo Peng Enhanced Oil Recovery Research Center, China University of Petroleum,

Safety and Security for CO 2 Geological Storage while CO 2 /H 2 O/Rock Reaction Bo Peng Enhanced Oil Recovery Research Center, China University of Petroleum,
Carbonate System and pH

Carbonate System and pH
Qatar Carbonates and Carbon Storage Research Centre 1 Dynamic Imaging of Reaction at Reservoir Conditions, Considering the Influence of Chemical Heterogeneity.

Qatar Carbonates and Carbon Storage Research Centre 1 Dynamic Imaging of Reaction at Reservoir Conditions, Considering the Influence of Chemical Heterogeneity.
Experimental investigation of supercritical CO2 reactivity

Experimental investigation of supercritical CO2 reactivity
Geological and Petrophysical Analysis Of Reservoir Cores

Geological and Petrophysical Analysis Of Reservoir Cores
Karst Chemistry I. Definitions of concentration units Molality m = moles of solute per kilogram of solvent Molarity [x]= moles of solute per kilogram.

Karst Chemistry I. Definitions of concentration units Molality m = moles of solute per kilogram of solvent Molarity [x]= moles of solute per kilogram.
1 st Young North Sea CCS Researchers meeting, 18 June 2014, Rotterdam 1Abidoye Luqman K. Abidoye

1 st Young North Sea CCS Researchers meeting, 18 June 2014, Rotterdam 1Abidoye Luqman K. Abidoye
Early martian surface conditions from thermodynamics of phyllosilicates Vincent F. Chevrier Workshop on Martian Phyllosilicates: Recorders of Aqueous Processes?

Early martian surface conditions from thermodynamics of phyllosilicates Vincent F. Chevrier Workshop on Martian Phyllosilicates: Recorders of Aqueous Processes?
Looking at Trenton–Black River Reservoirs: Outcrops Analogs in Kentucky Dave Harris Kentucky Geological Survey University of Kentucky.

Looking at Trenton–Black River Reservoirs: Outcrops Analogs in Kentucky Dave Harris Kentucky Geological Survey University of Kentucky.
A Geochemical Survey of the Telese Hypothermal Spring, Southern Italy: Sulfate Anomalies Induced by Crustal Deformation (Harabaglia, et. al. 2002) Additional.

A Geochemical Survey of the Telese Hypothermal Spring, Southern Italy: Sulfate Anomalies Induced by Crustal Deformation (Harabaglia, et. al. 2002) Additional.
© NERC All rights reserved CCS main geological issues Storage capacity Injectivity Containment.

© NERC All rights reserved CCS main geological issues Storage capacity Injectivity Containment.
Reactive Transport in Acidization and CO 2 Sequestration : An Experimental Investigation of Calcite Dissolution in Brine Branko Bijeljic, Weng-Hong Chong,

Reactive Transport in Acidization and CO 2 Sequestration : An Experimental Investigation of Calcite Dissolution in Brine Branko Bijeljic, Weng-Hong Chong,
Stefan Iglauer, Saleh K Al-Mansoori, Christopher H Pentland, Branko Bijeljic, Martin J Blunt 2 Phase Measurement of Non-Wetting Phase Trapping.

Stefan Iglauer, Saleh K Al-Mansoori, Christopher H Pentland, Branko Bijeljic, Martin J Blunt 2 Phase Measurement of Non-Wetting Phase Trapping.

Similar presentations

Ads by Google