shale gas extraction in northeastern bc · 2020. 12. 8. · natural gas gas mix of hydrocarbons...
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Shale gas extraction in Northeastern BC
What impacts on the environment?
Webinar Watershed Sentinels, December 7th, 2020By Romain Chesnaux, ing.(Qc), Ph.D.
Full professor, Université du Québec à Chicoutimi 1
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Natural gas
Gas mix of hydrocarbons – mostly methane CH4
Biogenic gas (biogas) vs. thermogenic gas (natural pyrolysis of kerogen)
Conventional gas (discrete accumulation) associated with oil or non-associated with oil
Unconventional gas (diffuse accumulation) : shale gas (trapped micro-fractures), rock formation both the source and the reservoir of gas
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Conventional vs. non conventional
Multiple-stage hydrofracking combined with horizontal drilling Hydrofracking fluids (water-sand-chemicals) injected with high pressure Rock fractures maintained opened to allow shale gas degassing to the surface
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From https://www.croftsystems.net/oil-gas-blog/conventional-vs.-unconventional
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Shale gas extraction framework BC vs. Canada vs. international
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5From Crain’s Petrophysical Handbook: A history of oil and gas in Canada, 2002.
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Northeastern BC shale gas formations and oil & gas well mapping
6From Wisen, J., Chesnaux, R. et al. (2020)
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Conventional vs. unconventional gas in NEBC
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Conventional wells
Unconventional wells
From Wisen, J., Chesnaux, R. et al. (2020)
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Environmental issues
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Issue 1: Wellbore leakage and fugitive emissions What are the risks of contamination of surface water and groundwater if gas
and fracking fluids may come up to the surface along wellbores?
What are the risks of contamination of the atmosphere in terms of GHG emissions?
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From Yuan et al., 2013
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Leakage pathways and measurement
Saline Aquifer
Freshwater Aquifer
Freshwater Aquifer
Thin intermediate Depth gas zone
Target unit
Surface Casing Vent Flow
Over the Surface Casing Leakage
Cap Leakage
2020-12-07 10
Outside the Surface Casing Leakage
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Wellhead views
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From https://premiertech.ca/product/surface-casing-vent-tests/
From https://www.flickr.com/photos/94811399@N07/35756929774
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Issue 2: Injected water (quantity impacts) and produced water (quality impacts)
How much freshwater is consumed in NEBC for fracking?
How much waste water (natural brines + fracking fluids) is produced in NEBC and what will be the future disposal needs?
12From Estrada and Bhamidimarri, 2016
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Issue 1. Portrait of wellbore leakage in Northeastern BC
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Wisen, J., Chesnaux, R., Werring, J., Wendling G. et al. 2020. A portrait of wellbore leakage in Northeastern British-Columbia, Proceedings of the National Academy of Sciences (PNAS) 117(2): 913-922.
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History of regulations
1960’s Start of unconventional gas production in NEBC (3 types of well: active, suspended and abandoned wells)
1995: Operators must test wellbore leakage upon abandonment of the well
2010: Oil and gas Activities Act: 1-Separation of fracking operations and aquifers 2-Leakage declaration obligatory when detected 3-Leakage must be reported in a publicly accessible database
Implementation of a database managed by the « British Columbia Oil and Gas Commission » (BC OGC)
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BC OGC database
First study on wellbore leakage: Wisen, J., Chesnaux, R. et al. 2020. A portrait of wellbore leakage in Northeastern British-Columbia, Proceedings of the National Academy of Sciences (PNAS)
2 database interpreted (wells drilled from 1960 to 2016):
-BC OGC 2017 - Integrated Resource Information System (IRIS): 25,119 existing wells
-BC OGC 2017 – Wellbore Leakage Database: 21,525 tested wells from 1995 because 3,594 wells were installed before 1995)
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Results – Wellbore leakage
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Over 21,525 tested wells, 2,322 have leakage (11 %)
These numbers are underestimated (Analogy to the Covid19: the more you test, the more you detect).
Issue of the abandoned wells that are not monitored for leakage and for which casings and cement may deteriorate over time and that may test positive eventually.
From Wisen, J., Chesnaux, R. et al. (2020)
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Results – Causes of leakage
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Sample of 29 active wells1-Corrosion of casings – casing failures
2-Defective seal
From Wisen, J., Chesnaux, R. et al. (2020)
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Quantity of gas leaking (2,134 wells)
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From Wisen, J., Chesnaux, R. et al. (2020)
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Gas leakage compared to car emissions
1 well average leakage rate = 5.9 m3/day = 1.4 tons of CH4 per year and per well = 35 tons of CO2 per year and per well
1 car = 4 .7 tons of CO2 per year
1 well = 8 cars
2,134 leaking wells = 75,000 tons of CO2 emission per year
= a city of 20,000 inhabitants in terms of GHG emissions
Other possible risks: H2S emissions and explosion risks19
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Issue 2. Impacts on water (quantity and quality)
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Wisen, J., Chesnaux, R., Wendling, G. and Werring, J. 2019. Water footprint from hydraulic fracturing in Northeastern British-Columbia, Environmental Earth Sciences 78, Article 689.
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Water circulation: injected water vs. produced water
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Disposed
From Wisen, J., Chesnaux, R. et al. (2019)
Produced water = wastewater (brines + fracking fluids)
Injected water = freshwater used for fracking (surface water and groundwater)
40% of produced water is recirculated (reinjected)
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Quantity of freshwater used for fracking
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Average of 30,000 m3/well (12 Olympic pools per well) = a total consumption of 750 million cubic meters for 25,000 wells.
Equivalent to:10 times the annual water consumption of a city of 700,000 inhabitants
= 300,000 Olympic pools (2,500 m3/pool)
From Wisen, J., Chesnaux, R. et al. (2020)
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Quality of produced water
23From Wisen, J., Chesnaux, R. et al. (2019)
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Other issues: Fracking and induced earthquakes
Wisen, J., Chesnaux, R., Wendling, G., Werring, J. et al. 2019. Assessing the potential of cross-contamination from oil and gas hydraulic fracturing: A case study in northeastern British Columbia, Canada, Journal of Environmental Management 246: 275-282.
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Fracking vs. induced seismicity
25From Wisen, J., Chesnaux, R. et al. (2019)
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Conclusion/recommandations/discussions 1st study realised on the BC OGC database –11% of wells with leakage (but underestimation)
Future needs: 1-More efforts needed on the monitoring of fugitive gas emissions (increase testing rates) and 2-Case of abandoned wells that should be monitored on a long term perspective (chemical and mechanical degradation of cement and casing)
Future research: Field monitoring (gas emissions and water quality), GHG emissions update for both active and abandoned wells, potential effects of seismicity on well integrity 26
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PublicationsJournal articles: -Wisen, J., Chesnaux, R., Wendling, G., Werring, J., Barbecot, F., Baudron, P. 2019.
Assessing the potential of cross-contamination from oil and gas hydraulic fracturing: A case study in northeastern British Columbia, Canada, Journal of Environmental Management 246: 275-282.
-Wisen, J., Chesnaux, R., Wendling, G., Werring, J. 2019. Water footprint from hydraulic fracturing in Northeastern British-Columbia, Environmental Earth Sciences, 78, Art. 689.
-Wisen, J., Chesnaux, R., Werring, J., Wendling, G., Baudron, P., Barbecot, F. 2020. A portrait of wellbore leakage in Northeastern British-Columbia, Proceedings of the National Academy of Sciences (PNAS) 117(2): 913-922.
Conference proceedings: -Chesnaux, R. et al. 2013. Modeling the impacts of shale gas extraction on groundwater and
surface water resources. Proceedings of GeoMontreal 2013, Montreal, Canada, 10pp. -Wisen, J. et al. 2016. Investigation of possible surface contamination from a deep waste
disposal well in Northeastern British Columbia, Canada. Proceedings of the 43rd
International association of Hydrogeologists Congress, the French/German chapter, Montpellier, France.
-Wisen, J. et al. 2017. Investigating oil and gas wellbore leakage in Northeastern British Columbia, Canada. Proceedings of GeoOttawa 2017, Ottawa, Canada, 8pp.
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