Overview
Background
Julie’s research is mainly focussed on gas-water-rock core reactivity at reservoir conditions using experimental, field, and geochemical modelling techniques. Recent projects have been in the application of carbon dioxide geological storage in which CO2 is captured and stored in formations generally contained by low permeability cap-rock. The safe containment of the injected CO2 and the potential changes to rock porosity, permeability, and water quality should be determined. Recent and current projects with a focus on a demonstration site in the Surat Basin (Precipice Sandstone) include the impacts of impurity or acid gases present in industrial CO2 streams (collaboration with D. Kirste, SFU), inducing carbonate precipitation (in collaboration with S. Golding), and understanding dissolved metal sources and fate. Julie has also worked closely with the CO2CRC, CTSCo, Glencore, SEAL, the NSW government, CI-NSW, and ANLEC R&D, and provided expert opinion to the Queensland Government, and input to Environmental Impacts Assessments.
Julie is currently working with landholders, the QLD regional government, RDMW, councils and industry to understand the sources of methane in aquifers of the Great Artesian Basin, especailly those overlying coal seam gas reservoirs (CSG) (with Arrow Energy, SANTOS, APLNG, H. Hoffman, K, Baublys).
Other projects include gas-water-rock or acid-rock reactivity that modify nano-porosity and gas flow in gas or oil bearing shales.
Julie Pearce graduated with an MCHEM (Hons) degree in Chemistry from the University of York, UK. She then moved to the University of Bristol to complete a Ph.D. in 2007 focusing on laser spectroscopic studies to understand the detailed reaction dynamics of atmospheric processes. From 2007 – 2009 she accepted a Japan Society for the Promotion of Science Postdoctoral Fellowship, hosted at Nagoya University, Japan. There she measured delta 13C and delta 18O isotopic signatures of CO2 simultaneously in real time in the atmosphere using a laser spectroscopic technique to understand anthropogenic and biogenic sources of CO2. After taking a career break to travel in 15 countries in Asia, she moved to Brisbane in 2010 where she is enjoying the surrounding natural beauty of Queensland.
Availability
- Dr Julie Pearce is:
- Available for supervision
- Media expert
Fields of research
Qualifications
- Masters (Coursework), The University of York
- Doctor of Philosophy, University of Bristol
Research interests
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CO2 storage and impurity gases
Geochemistry and geomechanical effects
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Reaction dynamics
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CO2 gas phase isotopologues in indentification of anthropogenic CO2
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Wet sueprcritical CO2 phase reactions in CO2 storage
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Shale gas stimulation
Research impacts
Carbon dioxide capture and geological storage has been validated by the IPCC as a measure to mitigate climate change. For the technology to be deployed on a large-scale, its viability in terms of the containment of the injected CO2 and the long-term safety needs to be determined. Julie is researching the effects of storage of co-contaminants which will be present in industrial CO2 streams on mineral and reservoir rock reactions.
Fugative methane causes issues for landholders when it migrates to bores, and for global warming when released to atmosphere. However methane is also generated naturally by microbes. Understanding the sources of methane in the Great Artesian Basin aquifers and alluvium is important for environmental and social licence.
A new reaction rig has been constructed at UQ specifically to withstand reactive co-contaminant gases, and simulate the high pressure / temperature conditions (~200 bar and 80°C) of CO2 geological storage. Reservoir rock reactions with the co-contaminant SO2 have indicated up to ~ 20 x reactivity than with pure CO2 and indicate potential for enhanced CO2 mineral trapping. This is in collaboration with Prof. Sue Golding, and Prof. Victor Rudolph, Julie also uses geochemical modelling in collaboration with A/Prof. Dirk Kirste of SFU, Canada, these projects are funded by the Collaborative Research Council for Greenhouse Gas Technology (CO2CRC).
Julie is also investigating the reactivity of the water saturated supercritical CO2 phase to clays and cap-rock. Initial results indicate enhanced precipitation of new phases which may self-seal cap-rock fractures.
Additionally teaching into CHEM 1090 Introductory Chemistry.
Works
Search Professor Julie Pearce’s works on UQ eSpace
2019
Journal Article
A combined geochemical and μCT study on the CO2 reactivity of Surat Basin reservoir and cap-rock cores: porosity changes, mineral dissolution and fines migration
Pearce, J.K., Dawson, G.K.W., Golab, A., Knuefing, L., Sommacal, S., Rudolph, V. and Golding, S.D. (2019). A combined geochemical and μCT study on the CO2 reactivity of Surat Basin reservoir and cap-rock cores: porosity changes, mineral dissolution and fines migration. International Journal of Greenhouse Gas Control, 80, 10-24. doi: 10.1016/j.ijggc.2018.11.010
2019
Other Outputs
ANLEC Project 7-1116-0295: West Wandoan 1 Moolayember Formation petrophysical analyses
Dawson, G.K.W., Golding, S.D., Biddle, D. and Pearce, J.K. (2019). ANLEC Project 7-1116-0295: West Wandoan 1 Moolayember Formation petrophysical analyses. Australia: ANLEC R&D.
2019
Conference Publication
Interaction of dissolved CO2, SOx and NOx with the Moolayember Formation underlying the Precipice Sandstone
Pearce, J. K., Dawson, G. K. W. and Golding, S. D. (2019). Interaction of dissolved CO2, SOx and NOx with the Moolayember Formation underlying the Precipice Sandstone. 14th Greenhouse Gas Control Technologies Conference, Melbourne, VIC Australia, 21-26 October 2018. Rochester, NY United States: SSRN.
2019
Conference Publication
CO2-water-rock predictions from aquifer and oil field drill core data: the Precipice Sandstone-Evergreen formation CO2 storage reservoir-seal pair
Pearce, J.K., La Croix, A.D., Brink, F., Honari, V., Gonzalez, S., Harfoush, A. and Underschultz, J.R. (2019). CO2-water-rock predictions from aquifer and oil field drill core data: the Precipice Sandstone-Evergreen formation CO2 storage reservoir-seal pair. AEGC 2019, Perth, WA, Australia, 2-5 September 2019. Taylor & Francis . doi: 10.1080/22020586.2019.12073162
2019
Book Chapter
Gas-water-mineral reactivity in caprocks: measurements, estimates, and observations
Pearce, Julie K. and Dawson, Grant K. W. (2019). Gas-water-mineral reactivity in caprocks: measurements, estimates, and observations. Geological carbon storage: subsurface seals and caprock integrity. (pp. 147-165) edited by Stéphanie Vialle, Jonathan Ajo‐Franklin and J. William Carey. Washington, DC, United States: American Geophysical Union. doi: 10.1002/9781119118657.ch7
2018
Other Outputs
7-0115-0236 Mobilisation and fate of heavy metals released from clays by the GHG stream: Milestone 6 memo-style report on the Reactive Transport Model
Kirste, D., Pearce, J., Golding, S. and Dawson, G. (2018). 7-0115-0236 Mobilisation and fate of heavy metals released from clays by the GHG stream: Milestone 6 memo-style report on the Reactive Transport Model. Canberra, ACT, Australia: Australian National Low Emissions Coal Research & Development (ANLEC R&D).
2018
Other Outputs
Milestone 5: PowerPoint report on West Wandoan 1 experimental results and reactive transport modelling
Pearce, J. K., Dawson, G. D., Kirste, D. and Golding, S. D. (2018). Milestone 5: PowerPoint report on West Wandoan 1 experimental results and reactive transport modelling. Barton, ACT Australia: ANLEC R&D.
2018
Journal Article
Experimental determination of impure CO2 alteration of calcite cemented cap-rock, and long term predictions of cap-rock reactivity
Pearce, Julie K. and Dawson, Grant K. W. (2018). Experimental determination of impure CO2 alteration of calcite cemented cap-rock, and long term predictions of cap-rock reactivity. Geosciences, 8 (7) 241, 241. doi: 10.3390/geosciences8070241
2018
Other Outputs
Using managed aquifer recharge for carbon storage: a feasibility study 7-1115-0268
Khan, C., Pearce, J. K., Zhou, F., Wolhuter, A., Golding, S. D. and Underschultz, J. (2018). Using managed aquifer recharge for carbon storage: a feasibility study 7-1115-0268. Barton, ACT Australia: ANLEC R&D.
2018
Journal Article
Experimental and predicted geochemical shale-water reactions: Roseneath and Murteree shales of the Cooper Basin
Pearce, J. K., Turner, L. and Pandey, D. (2018). Experimental and predicted geochemical shale-water reactions: Roseneath and Murteree shales of the Cooper Basin. International Journal of Coal Geology, 187, 30-44. doi: 10.1016/j.coal.2017.12.008
2018
Other Outputs
Interaction of CO2 saturated groundwater with Moolayember Formation lithologies: Memo report 2
Pearce, J. K., Dawson, G. K. W. and Golding, S. D. (2018). Interaction of CO2 saturated groundwater with Moolayember Formation lithologies: Memo report 2. Barton, ACT, Australia: ANLEC R&D.
2018
Book Chapter
Gas‐water‐mineral reactivity in caprocks
Pearce, Julie K. and Dawson, Grant K. W. (2018). Gas‐water‐mineral reactivity in caprocks. Geological Carbon Storage: Subsurface Seals and Caprock Integrity. (pp. 147-165) edited by Stephanie Vialle, Jonathan Ajo-Franklin and J. William Carey. Hoboken, NJ, United States: John Wiley & Sons. doi: 10.1002/9781119118657.ch7
2018
Journal Article
Geochemical changes in experimental water or HCl reactions of the Cooper Basin REM shales
Pearce, J. K., Turner, L.G. and Pandey, D. (2018). Geochemical changes in experimental water or HCl reactions of the Cooper Basin REM shales. ASEG Extended Abstracts, 2018 (1), 1-6. doi: 10.1071/aseg2018abp054
2018
Journal Article
Geochemistry of storing CO2 and NOx in the deep Precipice Sandstone
Pearce, J. K., Altaf, I., Kirste, D., Golding, S. D., Dawson, G. K. W. and Undershultz, J. (2018). Geochemistry of storing CO2 and NOx in the deep Precipice Sandstone. ASEG Extended Abstracts, 2018 (1), 1-8. doi: 10.1071/aseg2018abw8_4b
2018
Conference Publication
Interaction of dissolved CO2, SOx and NOx with the Moolayember Formation underlying the Precipice Sandstone
Pearce, J. K. , Dawson, G. and Golding, S. D. (2018). Interaction of dissolved CO2, SOx and NOx with the Moolayember Formation underlying the Precipice Sandstone. GHGT 14, Melbourne, Australia, 22-25 October 2018. GHGT 14.
2017
Other Outputs
Mobilisation and fate of metals and metalloids released by the GHG stream: Milestone report 4
Golding, S. D., Pearce, J. K., Dawson, G. K. W. and Kirste, D. (2017). Mobilisation and fate of metals and metalloids released by the GHG stream: Milestone report 4. Barton, ACT, Australia: ANLEC R&D.
2017
Other Outputs
Interaction of CO2 saturated groundwater with Moolayember Formation lithologies: Memo report 1
Pearce, J., Dawson, G. and Golding, S. (2017). Interaction of CO2 saturated groundwater with Moolayember Formation lithologies: Memo report 1. Canberra, ACT, Australia: Australian National Low Emissions Coal Research & Development (ANLEC R&D).
2017
Journal Article
Impure CO2 reaction of feldspar, clay, and organic matter rich cap-rocks: decreases in the fraction of accessible mesopores measured by SANS
Pearce, Julie K., Dawson, Grant K.W., Blach, Tomasz P., Bahadur, Jitendra, Melnichenko, Yuri B. and Golding, Suzanne D. (2017). Impure CO2 reaction of feldspar, clay, and organic matter rich cap-rocks: decreases in the fraction of accessible mesopores measured by SANS. International Journal of Coal Geology, 185, 79-90. doi: 10.1016/j.coal.2017.11.011
2017
Other Outputs
ANLEC Project 7-0314-0229: Raman Spectroscopy – detecting CO2, SOx and NOx in Precipice Sandstone
Turner, L. G., Myers, G. A., Pearce, J. K., Golding, S. D., Morgan, Q., Wiseman, B. and Cookman, A. (2017). ANLEC Project 7-0314-0229: Raman Spectroscopy – detecting CO2, SOx and NOx in Precipice Sandstone. Barton, ACT Australia: ANLEC R&D.
2017
Conference Publication
Parameterizing geochemical models: do kinetics of calcite matter?
Kirste, D., Pearce, J. and Golding, S. (2017). Parameterizing geochemical models: do kinetics of calcite matter?. 15th Water-Rock Interaction International Symposium (WRI), Evora, Portugal, 16-21 October 2016. Amsterdam, Netherlands: Elsevier. doi: 10.1016/j.proeps.2016.12.162
Funding
Current funding
Supervision
Availability
- Dr Julie Pearce is:
- Available for supervision
Before you email them, read our advice on how to contact a supervisor.
Available projects
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Safe geological storage of carbon dioxide to reach net zero
Underground carbon storage is one way to remove carbon emissions from the atmosphere and mitigate climate change. Understanding any impacts or risks to protect groundwater in overlying aquifers relied on by regional communities is a vital challenge.
The candidate has the opportunity to focus on one of two areas (or a combination):
- Understanding the hydrochemistry of shallow Great Artesian Basin aquifers in Surat Basin. This will involve field sampling for groundwater and gases, with state-of-the-art isotope and geochemical tracer characterisation. or
- Understanding potential geochemical markers of carbon dioxide leakage to aquifers. This will involve laboratory-based CO2-water-rock experiments, including geochemical water and rock characterisation and modelling
This is an Earmarked scholarship project that aligns with a recently awarded Australian Government grant.
Supervision history
Current supervision
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Doctor Philosophy
Reservoir characterisation in the southern Denison Trough for carbon dioxide storage
Associate Advisor
Other advisors: Emeritus Professor Joan Esterle
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Doctor Philosophy
Geological characterisation of the southern Denison Trough for CO2 sequestration
Associate Advisor
Other advisors: Emeritus Professor Joan Esterle
Completed supervision
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2015
Doctor Philosophy
CO2-water-rock interactions in low-salinity reservoir systems
Associate Advisor
Other advisors: Emeritus Professor Sue Golding, Emeritus Professor Joan Esterle
Media
Enquiries
Contact Dr Julie Pearce directly for media enquiries about:
- CO2 storage
- gas-water-rock reactions
- geochemistry
- geosequestration
- methane in aquifers
- mineralogy
- sequestration
- shale
- water quality
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