On scale and magnitude of pressure build‐up induced by large‐scale geologic storage of CO<sub>2</sub>

Zhou, Quanlin; Birkhölzer, Jens

doi:10.1002/ghg3.1

Cited by 75 publications

(61 citation statements)

References 17 publications

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“…Fluid injections into deeper formations, such as water disposal and waterflooding for enhanced oil/gas recovery, are ongoing and will continue to occur in California (54,55). In addition, geologic storage of CO 2 (56,57) …”

Section: Central Valleymentioning

confidence: 99%

Salinity of deep groundwater in California: Water quantity, quality, and protection

Kang

Jackson

2016

Proc. Natl. Acad. Sci. U.S.A.

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Deep groundwater aquifers are poorly characterized but could yield important sources of water in California and elsewhere. Deep aquifers have been developed for oil and gas extraction, and this activity has created both valuable data and risks to groundwater quality. Assessing groundwater quantity and quality requires baseline data and a monitoring framework for evaluating impacts. We analyze 938 chemical, geological, and depth data points from 360 oil/gas fields across eight counties in California and depth data from 34,392 oil and gas wells. By expanding previous groundwater volume estimates from depths of 305 m to 3,000 m in California’s Central Valley, an important agricultural region with growing groundwater demands, fresh [<3,000 ppm total dissolved solids (TDS)] groundwater volume is almost tripled to 2,700 km3, most of it found shallower than 1,000 m. The 3,000-m depth zone also provides 3,900 km3 of fresh and saline water, not previously estimated, that can be categorized as underground sources of drinking water (USDWs; <10,000 ppm TDS). Up to 19% and 35% of oil/gas activities have occurred directly in freshwater zones and USDWs, respectively, in the eight counties. Deeper activities, such as wastewater injection, may also pose a potential threat to groundwater, especially USDWs. Our findings indicate that California’s Central Valley alone has close to three times the volume of fresh groundwater and four times the volume of USDWs than previous estimates suggest. Therefore, efforts to monitor and protect deeper, saline groundwater resources are needed in California and beyond.

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Section: Central Valleymentioning

confidence: 99%

Salinity of deep groundwater in California: Water quantity, quality, and protection

Kang

Jackson

2016

Proc. Natl. Acad. Sci. U.S.A.

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“…For geologic carbon sequestration (GCS) to have a positive effect on reducing or at least stabilizing atmospheric carbon levels, the anticipated volume of CO 2 that would need to be injected in the subsurface is very large (e.g., Zhou and Birkholzer, 2011). One single coal-fired power plant alone may emit as much as 5-10 million tons of CO 2 per year.…”

Section: Introductionmentioning

confidence: 99%

Impact-driven pressure management via targeted brine extraction—Conceptual studies of CO2 storage in saline formations

Birkhölzer

Cihan

Zhou

2012

International Journal of Greenhouse Gas Control

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119

104

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Large-scale pressure buildup in response to carbon dioxide (CO 2 ) injection in the subsurface may limit the dynamic storage capacity of suitable formations, because elevated pressure can impact caprock integrity, induce reactivation of critically stressed faults, drive CO 2 and/or brine through conductive features into shallow groundwater resources, or may affect existing subsurface activities such as oil and gas production. It has been suggested that pressure management involving the extraction of native fluids from storage formations can be used to control subsurface pressure increases caused by CO 2 injection and storage, thereby limiting the possibility of unwanted effects. In this study, we introduce the concept of "impact-driven pressure management (IDPM)", which involves optimization of fluid extraction to meet local (not global) performance criteria (i.e., the goal is to limit pressure increases primarily where environmental impact is a concern). We evaluate the feasibility of IDPM for a hypothetical CO 2 storage operation in an idealized multi-formation system containing a critically stressed fault zone. Using a newly developed analytical solution, we assess alternative fluid extraction schemes and test whether a predefined performance criterion can be achieved, in this case the maximum allowable pressure near the fault zone. Alternative strategies for well placement are evaluated, comparing near-injection arrays of extraction wells with near-impact arrays. Extraction options include active extraction wells and (passive) pressure relief wells, as well as combinations of both, with and without reinjection into the subsurface. Our results suggest that strategic well placement and optimization of extraction may allow for a significant reduction in the brine extraction volumes. Additional work is required in the future to test the general concept of IDPM for more complex and realistic CO 2 storage scenarios.Page 2 IntroductionFor geologic carbon sequestration (GCS) to have a positive effect on reducing or at least stabilizing atmospheric carbon levels, the anticipated volume of CO 2 that would need to be injected in the subsurface is very large (e.g., Zhou and Birkholzer, 2011). One single coal-fired power plant alone may emit as much as 5-10 million tons of CO 2 per year. Unless storage is conducted in depleted oil or gas reservoirs, where fluids have been previously extracted as a result of production, the pore space in suitable storage formations is already filled with saline water. The CO 2 volume injected into saline formations then needs to be accommodated by expansion of reservoir pore space and compression of fluid in response to pressure buildup and, if reservoir boundaries are open, by pressure-driven migration of native brines into neighboring formations. Large and lasting pressure perturbation in the subsurface is an expected feature of GCS operations (e.g., Nicot, 2008;, and careful monitoring and management of pressure increases is generally considered of great importance to the saf...

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“…The 3D basin-scale reservoir model extends to a depth of 3.5 km, and laterally 84 km in the eastern and 122 km in the northern direction (Wainwright et al, 2013;Zhou and Birkholzer, 2011). Eleven formations from the crystalline base rock to the top shallow aquifer are represented, as are the Greeley, PPC and New Hope fault zones (Fig.…”

Section: Fluid Flow Simulationsmentioning

confidence: 99%

“…We develop different scenarios in which the fault strength is changed and analyze geomechanical fault stability response during a hypothetical carbon sequestration project initially planned at an industrial-scale in the Southern San Joaquin Basin in California, USA (Fig. 1a) Wainwright et al, 2013;Zhou and Birkholzer, 2011). We conduct nine simulations in which the distribution of the coefficients of static and dynamic friction are changed to simulated a hardening and softening phase before and during rupture.…”

Section: Introductionmentioning

confidence: 99%

Effects of the distribution and evolution of the coefficient of friction along a fault on the assessment of the seismic activity associated with a hypothetical industrial-scale geologic CO2 sequestration operation

Jeanne

Rutqvist

Foxall

et al. 2017

International Journal of Greenhouse Gas Control

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On scale and magnitude of pressure build‐up induced by large‐scale geologic storage of CO₂

Cited by 75 publications

References 17 publications

Salinity of deep groundwater in California: Water quantity, quality, and protection

Salinity of deep groundwater in California: Water quantity, quality, and protection

Impact-driven pressure management via targeted brine extraction—Conceptual studies of CO2 storage in saline formations

Effects of the distribution and evolution of the coefficient of friction along a fault on the assessment of the seismic activity associated with a hypothetical industrial-scale geologic CO2 sequestration operation

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On scale and magnitude of pressure build‐up induced by large‐scale geologic storage of CO2

Cited by 75 publications

References 17 publications

Salinity of deep groundwater in California: Water quantity, quality, and protection

Salinity of deep groundwater in California: Water quantity, quality, and protection

Impact-driven pressure management via targeted brine extraction—Conceptual studies of CO2 storage in saline formations

Effects of the distribution and evolution of the coefficient of friction along a fault on the assessment of the seismic activity associated with a hypothetical industrial-scale geologic CO2 sequestration operation

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On scale and magnitude of pressure build‐up induced by large‐scale geologic storage of CO₂