K. J. Seymour scite author profile

K. J. Seymour

5Publications

77Citation Statements Received

94Citation Statements Given

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Affiliations

Environment Agency, Norsk Hydro (Germany)

Publications

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Start, development and status of the regulator-led national groundwater resources modelling programme in England and Wales

Whiteman

Seymour

Wonderen

et al. 2012

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Over the last 10 years there has been a unique regulator-led programme involving extensive development of regional groundwater models across England and Wales for water resources purposes by the Environment Agency for England and Wales. Eight regionally managed programmes are underpinned by a framework, which has allowed a coordinated national approach. The main uses of the models are for catchment abstraction management and licensing. Models have also assisted in monitoring network design, investigating groundwater quality and implementing groundwater source protection zones. A five-yearly review of the programmes recognized the importance of benefit realization and stakeholder involvement as well as technical good practice. The programme already delivered provides a solid foundation for supporting the management decisions required in areas such as climate change mitigation and integrated catchment management using appropriate tools at a time of rapid organization change and financial uncertainty.

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The application of 3D geological modelling to aquifer recharge assessments in an urban environment

Lelliott

Bridge

Kessler

et al. 2006

QJEGH

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Structural controls on groundwater flow in the Permo-Triassic sandstones of NW England

Seymour

Ingram

Gebbett

2006

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There is increasing evidence that groundwater flow in many parts of the major Permo-Triassic sandstone aquifers of NW England is influenced strongly by predominantly N-S-trending faults. These structural controls on groundwater flow may only become apparent when the aquifers are subject to abstraction stress. A series of case examples are presented, from the Fylde Sandstone aquifer north of Preston, and from the sandstone aquifers of the Lower Mersey Basin, Manchester and Wirral areas. In these studies the 'compartmentalization' of the aquifers by faults has been recognized in field investigations and also in numerical modelling studies related to groundwater resources development on both local and aquifer-wide scales.

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Landfill Lining for Leachate Containment

Seymour

1992

Water & Environment J

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There is an increasing need for engineered liners to prevent the escape of leachate and to control the migration of landfill gas. This has been influenced by new European and UK legislation and codes of practice. General principles of site design are explained, followed by a review of the advantages and disadvantages of different liner systems, including mineral liners (natural clay, mudrocks and soil/bentonite admixtures), geomembranes and composite liners. The need for conservative factors of safety in site design and high standards of quality control, involving full‐time supervision and independent certification of the installation works, are considered essential to ensure the effectiveness of the barrier. There is no one ideal liner material. Composite mineral/geomembrane liners provide the highest degree of security against leakage and, as such, should be considered as ‘the norm’rather than for use only in particularly high‐risk situations.

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A rapid model for estimating the depletion in river flows due to groundwater abstraction

Hulme

Jackson

Atkins

et al. 2012

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The Environment Agency of England and Wales uses its calibrated regional models to estimate the reduction in river flows resulting from proposed groundwater abstractions. Where there is no regional model, analytical equations can produce quick initial estimates of river flow depletion. However, users often want more confidence in their estimates by representing more faithfully their understanding of the real river–aquifer system. This paper shows that, when using a numerical model designed to predict river flow depletion, it is important to include adjacent catchments and intermittent streams and less important to include river elevations and variations in transmissivity with groundwater head. Recharge does not usually need to be included unless part of the river becomes disconnected or dry. Therefore, for rivers where stream length is constant and transmissivity variations are small, it is valid to use a ‘no-recharge’ depletion model, which can be built quickly (within a month). A case study on the River Leith in NW England illustrates the use of such a model to assess the ecological impact of two groundwater abstraction licences under the European Union Habitats Directive.

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K. J. Seymour

Start, development and status of the regulator-led national groundwater resources modelling programme in England and Wales

The application of 3D geological modelling to aquifer recharge assessments in an urban environment

Structural controls on groundwater flow in the Permo-Triassic sandstones of NW England

Landfill Lining for Leachate Containment

A rapid model for estimating the depletion in river flows due to groundwater abstraction

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