Thanks To http://www.bgs.ac.uk
This article was written by the The British Geological Survey, which is a part of the Natural Environment Research Council (NERC) and is its principal supplier of national capability in geoscience. They have some concerns over ground water and shale gas extraction. They have several good articles please browse their site.
Shale Gas and Ground Water
http://www.bgs.ac.uk/research/groundwater/shaleGas/home.html
iHydrogeology, Shale Gas Source Rocks and Aquifers
http://www.bgs.ac.uk/research/groundwater/shalegas/iHydrogeology.html
Shale Gas FAQ's
http://www.bgs.ac.uk/research/groundwater/shalegas/faq.html
New Shale Gas Resource Figures - Central England
http://www.bgs.ac.uk/research/energy/shalegas/#ad-image-0
Methane in UK groundwater research overview
Methane (CH4) is an important greenhouse gas and a common trace component of groundwater.
We are currently undertaking a national survey of baseline methane concentrations in groundwaters across the UK. This work will enable future changes to be measured, which is of relevance to current issues such as possible shale gas extraction.
The BGS has been studying methane in UK groundwaters since the 1980s to investigate:
- The potential for methane emissions from groundwaters of the UK(Gooddy and Darling, 2005)
- Sources of methane and their hydrogeochemical controls (Darling and Gooddy, 2006)
- Baseline concentrations in UK groundwaters
- When methane concentrations reach unsafe levels and become explosive
Groundwater methane contribution to total atmospheric emissions
Using baseline methane concentrations for the main groundwater supply aquifers in the UK, Gooddy and Darling (2005) estimated that water supply groundwater sources contribute only 0.05 per cent to total UK methane emissions (up to 3.3 x 10-4 Tg/year).
In terms of a global budget, the groundwater methane input was estimated to be two orders of magnitude smaller.
How does methane get into groundwater?
Methane in groundwater is derived from two main sources:
- biogenic methane, which is bacterially produced, and is often associated with shallow anaerobic groundwater environments, such as peat bogs, wetlands, lake sediments and landfills, although it is detectable in nearly all groundwater.
- thermogenic methane, which is formed during thermal decomposition of organic matter at depth under high pressures, and is often associated with coal, oil and gas fields.
In the UK most methane in groundwater is likely to be biogenic in origin, although thermogenic contributions may be locally important where gases have migrated from depth or there is slow release from previously deeply buried, low permeability, organic-rich rocks.
Dissolved gas and stable isotope analysis of groundwater samples can be used to identify the different sources and potential origin of methane.
Baseline concentrations in UK groundwaters
Understanding the 'baseline' concentrations of methane in UK groundwaters can help us to assess future methane survey or incident data.
Measurements of potable waters from the Cretaceous, Jurassic and Triassic carbonate and sandstone aquifers reveal methane concentrations of up to 500 µg l-1 but a mean value of < 10 µg l-1.
Aquiclude and thermal waters from the Carboniferous and Triassic have concentrations in excess of 1500 µg l-1 (Darling and Gooddy, 2006).
BGS scientists are building on our previous work and surveying methane concentrations (and other chemical parameters) in groundwater in a range of UK aquifers.
When does methane become explosive and create a potential safety hazard?
Methane becomes an explosive hazard at concentrations of 5–15% by volume in air.
Assuming complete outgassing from water, this requires a minimum dissolved methane concentration of 1600 µg l-1.
This figure is considerably above the general methane baseline (see above), but concentrations of up to ten times higher have been found in tunnels drilled in organic-rich shales.
Contact
Contact Dr George Darling for further information
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