Developing 3D geological and hydrogeological models for the low level waste repository site, west Cumbria, UK

This case study presents the recent development of new 3D geological models for the Low Level Waste Repository in Cumbria for the purposes of hydrogeological modelling, through the review of historical and new datasets. The site is located in an area of complex Late Pleistocene glacial geology and g...

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Bibliographic Details
Published in:Quarterly journal of engineering geology and hydrogeology 2021-05, Vol.54 (2)
Main Authors: Coleman, C. G, Grimoldi, E, Woollard, H, Holton, D, Shevelan, John
Format: Article
Language:English
Subjects:
applied (geophysical surveys & methods)
ArcGIS
Boreholes
characterization
coastal environment
cone penetration tests
Cumbria England
data bases
data processing
Datasets
Drilling
England
Environmental assessment
Environmental geology
Europe
geographic information systems
Geology
Geomorphology
geophysical methods
Geophysics
Glacial geology
Great Britain
ground water
Groundwater
Groundwater flow
Historic buildings & sites
Historic sites
Hydrogeological models
Hydrogeology
Hydrologic data
hydrology
information systems
Lake ice
Lakes
laser methods
lidar methods
Low level
low-level waste
mapping
penetration tests
Pleistocene
Quaternary
Repositories
risk assessment
safety
site exploration
Three dimensional models
United Kingdom
waste disposal
water quality
Western Europe
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Summary:This case study presents the recent development of new 3D geological models for the Low Level Waste Repository in Cumbria for the purposes of hydrogeological modelling, through the review of historical and new datasets. The site is located in an area of complex Late Pleistocene glacial geology and geomorphology which control near-surface groundwater movement, but which benefits from extensive historical site characterisation data. The work emphasises the value of a quality review of existing borehole records, drilling techniques and supplementary information to build a predictive geological model. Integration of different data has proved crucial to achieve understanding of the ground conditions, characterised by complex Quaternary sequences, and the depositional processes responsible for their formation. The updated geological interpretation suggests that the Low Level Waste Repository is located on a former ice-dammed lake plain. This is contrary to the previous interpretation of multiple, extensive, till units in the area. While the permeabilities may be relatively similar in both interpretations, the extents may be different. Understanding the depositional processes and extent and hydrogeological characteristics of the deposits is key to developing a hydrogeological model that is appropriate for use to assess the environmental safety of the site now and into the future.
ISSN:1470-9236
2041-4803
DOI:10.1144/qjegh2020-026