Your search keyword '"Rob Westaway"' showing total 194 results

1. Permeability and Mineralogy of the Újfalu Formation, Hungary, from Production Tests and Experimental Rock Characterization: Implications for Geothermal Heat Projects

Author

Cees J. L. Willems, Chaojie Cheng, Sean M. Watson, James Minto, Aislinn Williams, David Walls, Harald Milsch, Neil M. Burnside, and Rob Westaway

Subjects

Pannonian Basin, sandstone, permeability, X-CT scanning, XRD analysis, thin-section analysis, Technology

Abstract

Hundreds of geothermal wells have been drilled in Hungary to exploit Pannonian Basin sandstones for district heating, agriculture, and industrial heating projects. Most of these sites suffer from reinjection issues, limiting efficient use of this vast geothermal resource and imposing significant extra costs for the required frequent workovers and maintenance. To better understand the cause of this issue requires details of reservoir rock porosity, permeability, and mineralogy. However, publicly available data for the properties of reservoir rocks at geothermal project sites in Hungary is typically very limited, because these projects often omit or limit data acquisition. Many hydrocarbon wells in the same rocks are more extensively documented, but their core, log, or production data are typically decades old and unavailable in the public domain. Furthermore, because many Pannonian sandstone formations are poorly consolidated, coring was always limited and the collected core often unsuitable for conventional analysis, only small remnant fragments typically being available from legacy hydrocarbon wells. This study aims to reduce this data gap and to showcase methods to derive reservoir properties without using core for flow experiments. The methods are thin-section analysis, XRD analysis and mercury intrusion porosimetry, and X-CT scanning followed by numerical flow simulation. We validate our results using permeability data from conventional production testing, demonstrating the effectiveness of our method for detailed reservoir characterization and to better constrain the lateral variation in reservoir properties across the Pannonian Basin. By eliminating the need for expensive bespoke coring to obtain reservoir properties, such analysis will contribute to reducing the capital cost of developing geothermal energy projects, thus facilitating decarbonization of global energy supply.

Published

2021

2. Fault 'Corrosion' by Fluid Injection: A Potential Cause of the November 2017 MW 5.5 Korean Earthquake

Author

Rob Westaway and Neil M. Burnside

Subjects

Geology, QE1-996.5

Abstract

The November 2017 MW 5.5 Pohang earthquake is one of the largest and most damaging seismic events to have occurred in the Korean peninsula over the last century. Its close proximity to an Enhanced Geothermal System (EGS) site, where hydraulic injection into granite had taken place over the previous two years, has raised the possibility that it was anthropogenic; if so, it was by far the largest earthquake caused by any EGS project worldwide. However, a potential argument that this earthquake was independent of anthropogenic activity considers the delay of two or three months before its occurrence, following the most recent injection into each of the wells. A better understanding of the physical and chemical processes that occur following fluid injection into granite is thus warranted. We show that hydrochemical changes occurring while surface water, injected into granite, reequilibrates chemically with its subsurface environment, can account for time delays for earthquake occurrence of such duration, provided the seismogenic fault was already critically stressed, or very close to the condition for slip. This candidate causal mechanism counters the potential argument that the time delay militates against an anthropogenic cause of the Pohang earthquake and can account for its relatively large magnitude as a consequence of a relatively small-volume injection. The resulting analysis places bounds on combinations of physical and chemical properties of rocks, injected volume, and potential postinjection time delays for significant anthropogenic seismicity during future EGS projects in granite.

Published

2019

3. Reply to Comment by Alison A. Monaghan, David A.C. Manning, and Zoe K. Shipton on ‘Repurposing Hydrocarbon Wells for Geothermal Use in the UK: The Onshore Fields with the Greatest Potential, by Watson et al. (2020)’

Author

Sean M. Watson, Gioia Falcone, and Rob Westaway

Subjects

geothermal energy, repurposing hydrocarbon wells, UK resource assessment, Technology

Abstract

Monaghan, Manning, and Shipton [...]

Published

2020

4. Repurposing Hydrocarbon Wells for Geothermal Use in the UK: The Onshore Fields with the Greatest Potential

Author

Sean M. Watson, Gioia Falcone, and Rob Westaway

Subjects

geothermal energy, repurposing hydrocarbon wells, UK resource assessment, Technology

Abstract

One potential opportunity for the decarbonisation of heat supply in the UK is the repurposing of onshore hydrocarbon wells for the production and/or storage of geothermal heat. This paper reports an investigation into the most favourable candidate sites for such repurposing, taking into consideration the available thermal energy outputs and technological options for heat use. A GIS mapping model was generated, combining public domain data on onshore wells and production data from onshore fields, provided by the UK Oil and Gas Authority, with available subsurface temperature data. This model has thus integrated information on location, depth, operational status, and bottom-hole temperature for onshore hydrocarbon wells with production rates from onshore fields in the UK. Of the 2242 onshore hydrocarbon wells thus reported, 560 have the potential to be repurposed, 292 of which are currently operating. Using aggregated water production data for all operating wells in each field, the fields with the greatest potential for geothermal repurposing are ranked. Two of these, the Wytch Farm and Wareham fields, are selected for more detailed analysis. Wytch Farm, the largest onshore oilfield in western Europe, produces water at ~65 °C that might yield a feasible thermal power output of ~90 MW. If an end use could be found where it might substitute for burning of natural gas, the value of this output would be ~£90,000 per day or ~£30 million per year. However, this field is located in a protected landscape where local development would be restricted by planning regulations. The Wareham field is not in a protected landscape, but the low temperature, ~44 °C, and low flow rate limit the scope of potential end uses. Nonetheless, these and the other highly ranked fields have potential heat outputs that are significant compared with other geothermal heat projects, thus offering the possibility of making useful contributions to the decarbonisation of UK energy use.

Published

2020

5. Channel migration in the northeastern margin of the Tibetan Plateau and its implication for fluvial response to the interaction between rapid tectonic activity, climatic fluctuation and human influence

Author

Baotian Pan, Xiaohua Li, Zhenbo Hu, David Bridgland, Qinhong Mo, Zijuan Dong, Menghao Li, Yanan Yang, Rob Westaway, Guanghui Dong, Shanjia Zhang, and Meiling Zhong

Subjects

Archeology, Global and Planetary Change, Geology, Ecology, Evolution, Behavior and Systematics

Published

2023

6. Late Cenozoic uplift history of the Peak District, central England, inferred from dated cave deposits and integrated with regional drainage development: A review and synthesis

Author

Rob Westaway

Subjects

010506 paleontology, geography, geography.geographical_feature_category, Pleistocene, Fluvial, Downcutting, 010502 geochemistry & geophysics, 01 natural sciences, Paleontology, Cave, Carboniferous, Interglacial, Glacial period, Quaternary, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

The White Peak upland in the Peak District region of central England extends over an area of >100 km2, locally exceeding 400 m above sea-level, formed in extensively karstified limestone of Early Carboniferous age. Historically regarded as palaeo-karst, following the availability of U-series dates since the 1980s, it has become apparent that the superimposed cave levels in this region formed during the succession of Pleistocene interglacials, their differences in height reflecting downcutting by the River Derwent and its tributaries, in response to regional uplift. However, quantitative interpretation is complicated because of effects of glaciation, most importantly glacial diversion of rivers in adjoining lowland regions, making the determination of uplift from fluvial incision particularly difficult. The Derwent terrace dataset is also complicated by lithologically-controlled knickpoints, which can remain localized or propagate upstream depending on individual details. Cave, fluvial, and glacial datasets for this region are integrated to quantify the uplift history, establishing the Quaternary uplift history of a wide region of Britain. Uplift of >100 m since the Mid-Pleistocene Revolution, and by ~300–400 m since the Miocene, is thus inferred. These amounts exceed the uplift deduced over corresponding timescales in surrounding regions, indicating that the Quaternary uplift has slightly accentuated the overall domal form of this Carboniferous limestone inlier. The analysis supports the previous assignment of the Wragby Glaciation in the surrounding lowland regions to MIS 8 and constrains the most recent glaciation within the Peak District, represented by the Bakewell Till, also to MIS 8. Overall, this work provides an important case study demonstrating integrated use of multi-disciplinary datasets to quantify Late Cenozoic landscape development.

Published

2020

7. Reply to discussion on ‘Borehole temperature log from the Glasgow Geothermal Energy Research Field Site: a record of past changes to ground surface temperature caused by urban development’ by Watson and Westaway 2020 ( SJG , 56, 134–152)

Author

Rob Westaway

Subjects

business.industry, Geothermal energy, Ground surface temperature, Borehole, Coal mining, Geology, Temperature Log, business, Archaeology

Abstract

Watson and Westaway (2020) (WW) quantified subsurface temperature variations caused by anthropogenic climate change and urban/industrial development in Glasgow, using temperature data from the Glasgow Geothermal Energy Research Field Site (GGERFS) well GGC-01 (at site G-10; Fig. 1), noting implications for the thermal physics of this site. Monaghan et al. (2021) (MMS) have queried points, noted in passing by WW, on other aspects: the GGERFS purpose, location, design, heat resource and cost. Fig. 1. Map of the study area, SE of Glasgow city centre, showing actual and ‘descoped’ GGERFS sites and other localities discussed in the text. For Dalmarnock Colliery, at British National Grid reference NS 61181 62715 (D), the ‘old’ and ‘new’ pits of Farme Colliery, c . NS 622 624 (F1 and F2), and Westmuir Colliery, represented by Carntyne pit, c . NS 634 644 (W1), and Wellshot pit, c . NS 641 639 (W2), the areas of workings are illustrated schematically, after Monaghan et al. (2017); these are c. 0.7 km2 each for Dalmarnock and Westmuir collieries and c. 1.4 km2 for Farme Colliery. Surface workings of former collieries surrounding these mined areas include: Caroline pit, c . NS 634 640 (C); Eastbank pit, c . NS 649 639 (Eb); Easterhill Colliery, c . NS 636 624 (Eh); three pits of Eastfield Colliery, c . NS 627 614, 629 615 and 631 614 (E1, E2 and E3); pit 4, c . NS 609 620, and pit 5, c . NS 605 623, of Govan Colliery (G4 and G5); pit 1, c . NS 616 613, and pit 3, c . NS 618 618, of Stonelaw Colliery (S1 and S3); and Springbank pit, c . NS 623 638 (Sp). The Shawfield Chemical Works is c . NS 60720 62250; the Shettleston minewater heat project is c . NS 644 …

Published

2021

8. Permeability and Mineralogy of the Újfalu Formation, Hungary, from Production Tests and Experimental Rock Characterization: Implications for Geothermal Heat Projects

Author

Aislinn Williams, Sean M. Watson, C.J.L. Willems, David Walls, Harald Milsch, Rob Westaway, Neil Burnside, James M. Minto, and Chaojie Cheng

Subjects

Technology, Control and Optimization, Geothermal heating, 0211 other engineering and technologies, Energy Engineering and Power Technology, Mineralogy, numerical flow simulation, 02 engineering and technology, 010502 geochemistry & geophysics, 7. Clean energy, 01 natural sciences, Pannonian Basin, sandstone, 021108 energy, Electrical and Electronic Engineering, Workover, Engineering (miscellaneous), Geothermal gradient, X-CT scanning, 0105 earth and related environmental sciences, XRD analysis, mercury intrusion porosimetry, Renewable Energy, Sustainability and the Environment, business.industry, Geothermal energy, Coring, Petroleum reservoir, Permeability (earth sciences), thin-section analysis, TA, 13. Climate action, Reservoir modeling, permeability, business, Geology, Energy (miscellaneous)

Abstract

Hundreds of geothermal wells have been drilled in Hungary to exploit Pannonian Basin sandstones for district heating, agriculture, and industrial heating projects. Most of these sites suffer from reinjection issues, limiting efficient use of this vast geothermal resource and imposing significant extra costs for the required frequent workovers and maintenance. To better understand the cause of this issue requires details of reservoir rock porosity, permeability, and mineralogy. However, publicly available data for the properties of reservoir rocks at geothermal project sites in Hungary is typically very limited, because these projects often omit or limit data acquisition. Many hydrocarbon wells in the same rocks are more extensively documented, but their core, log, or production data are typically decades old and unavailable in the public domain. Furthermore, because many Pannonian sandstone formations are poorly consolidated, coring was always limited and the collected core often unsuitable for conventional analysis, only small remnant fragments typically being available from legacy hydrocarbon wells. This study aims to reduce this data gap and to showcase methods to derive reservoir properties without using core for flow experiments. The methods are thin-section analysis, XRD analysis and mercury intrusion porosimetry, and X-CT scanning followed by numerical flow simulation. We validate our results using permeability data from conventional production testing, demonstrating the effectiveness of our method for detailed reservoir characterization and to better constrain the lateral variation in reservoir properties across the Pannonian Basin. By eliminating the need for expensive bespoke coring to obtain reservoir properties, such analysis will contribute to reducing the capital cost of developing geothermal energy projects, thus facilitating decarbonization of global energy supply.

Published

2021

9. Fault 'Corrosion' by Fluid Injection: A Potential Cause of the November 2017 MW 5.5 Korean Earthquake

Author

Neil Burnside and Rob Westaway

Subjects

Time delays, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Slip (materials science), Induced seismicity, 010502 geochemistry & geophysics, Enhanced geothermal system, 01 natural sciences, Peninsula, General Earth and Planetary Sciences, Fluid injection, Seismology, Geology, 0105 earth and related environmental sciences

Abstract

The November 2017 MW 5.5 Pohang earthquake is one of the largest and most damaging seismic events to have occurred in the Korean peninsula over the last century. Its close proximity to an Enhanced Geothermal System (EGS) site, where hydraulic injection into granite had taken place over the previous two years, has raised the possibility that it was anthropogenic; if so, it was by far the largest earthquake caused by any EGS project worldwide. However, a potential argument that this earthquake was independent of anthropogenic activity considers the delay of two or three months before its occurrence, following the most recent injection into each of the wells. A better understanding of the physical and chemical processes that occur following fluid injection into granite is thus warranted. We show that hydrochemical changes occurring while surface water, injected into granite, reequilibrates chemically with its subsurface environment, can account for time delays for earthquake occurrence of such duration, provided the seismogenic fault was already critically stressed, or very close to the condition for slip. This candidate causal mechanism counters the potential argument that the time delay militates against an anthropogenic cause of the Pohang earthquake and can account for its relatively large magnitude as a consequence of a relatively small-volume injection. The resulting analysis places bounds on combinations of physical and chemical properties of rocks, injected volume, and potential postinjection time delays for significant anthropogenic seismicity during future EGS projects in granite.

Published

2019

10. Seismicity at Newdigate, Surrey, during 2018–2019: A Candidate Mechanism Indicating Causation by Nearby Oil Production

Author

Rob Westaway

Subjects

Calcite, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Magnitude (mathematics), Fault (geology), Induced seismicity, Structural basin, 010502 geochemistry & geophysics, 01 natural sciences, chemistry.chemical_compound, Sequence (geology), chemistry, Oil production, Petrology, Groundwater, Geology, 0105 earth and related environmental sciences

Abstract

During 2018–2019, oil was intermittently produced from the Late Jurassic Upper Portland Sandstone in the Weald Basin, southeast England, via the Horse Hill-1 and Brockham-X2Y wells. Concurrently, a sequence of earthquakes of magnitude ≤3.25 occurred near Newdigate, ∼3 km and ∼8 km from these wells. The pattern, with earthquakes concentrated during production from this Portland reservoir, suggests a cause-and-effect connection. It is proposed that this seismicity occurred on a patch of fault transecting permeable Dinantian limestone, beneath the Jurassic succession of the Weald Basin, hydraulically connected to this reservoir via this permeable fault and the permeable calcite ‘beef’ fabric within the Portland sandstone; oil production depressurizes this reservoir and draws groundwater from the limestone, compacting it and ‘unclamping’ the fault, reaching the Mohr-Coulomb failure criterion and causing seismicity. In principle this model is fully testable, but required data, notably the history of pressure variations in the wells, are not currently in the public domain. Quantitative estimates are, nonetheless, made of the magnitudes of the variations, arising from production from each well, in the state of stress on the seismogenic Newdigate fault. The general principles of this model, including the incorporation of poroelastic effects and effects of fault asperities into Mohr-Coulomb failure calculations, may inform understanding of anthropogenic seismicity in other settings.

Published

2021

11. Sulphur isotopes in deep groundwater reservoirs: evidence from post-stimulation flowback at the Pohang geothermal facility, Korea

Author

David Banks, Neil Burnside, Adrian J. Boyce, and Rob Westaway

Subjects

Anhydrite, Renewable Energy, Sustainability and the Environment, 0211 other engineering and technologies, Geology, 02 engineering and technology, engineering.material, 010502 geochemistry & geophysics, Geotechnical Engineering and Engineering Geology, Enhanced geothermal system, 01 natural sciences, Chloride, chemistry.chemical_compound, δ34S, chemistry, Environmental chemistry, engineering, medicine, QE, 021108 energy, Pyrite, Surface water, Geothermal gradient, Groundwater, 0105 earth and related environmental sciences, medicine.drug

Abstract

A hydraulic stimulation was carried out on a granodiorite reservoir in an enhanced geothermal system in August 2017 in Pohang, Korea. Water injected into the 4.2 km deep PX-1 well contained c. 330−360 mg/L sulphate, with a negative δ34S. The resulting flowback water became more saline with time, with sulphate and chloride concentrations and dissolved sulphate δ34S all increasing. Compared with conservative advective-dispersive and mixing models, the flowback contained surplus sulphate with an elevated δ34S. The PX-1 reservoir fluid is saturated with respect to anhydrite at downhole temperatures and pressures. Dissolution by injected surface water of secondary anhydrite along fracture surfaces, most likely with elevated δ34S reflecting the reservoir fluid, is likely to have resulted in an excess of 34S-enriched sulphate in the flowback fluid. An alternative hypothesis involving oxidation of pyrite is also plausible but is stoichiometrically inadequate to account for the observed sulphate excess, and unlikely from a sulphur isotopic perspective. This analysis thus contributes to the evidence for water-rock reactions during stimulation of the Pohang granodiorite.

Published

2021

12. Basin inversion : a worldwide Late Cenozoic phenomenon

Author

Rob Westaway, David R. Bridgland, and Zhenbo Hu

Subjects

Global and Planetary Change, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Pleistocene, Inversion (geology), 020206 networking & telecommunications, 02 engineering and technology, Present day, Sedimentary basin, Oceanography, 01 natural sciences, Paleontology, Tectonics, Tectonic uplift, 0202 electrical engineering, electronic engineering, information engineering, Sedimentary rock, Cenozoic, Geology, 0105 earth and related environmental sciences

Abstract

The occurrence of endorheic basins on the Tibetan Plateau, both in its Pleistocene history and (fewer in number) at the present day, has been attributed to the ‘basin-and-range’ character of the orogen; the understanding of their conversion to exorheic drainage is key to interpreting the evolution of the Yellow River and other river systems of the plateau. However, such basins also occur in areas of lower altitude and relief and can be observed to have been considerably more common in pre-Quaternary times. In many areas, for example the Mediterranean region, such basins, previously having accumulated stacked sedimentary sequences, typically ‘inverted’ in the late Pliocene or at around the Pliocene–Pleistocene transition, possibly as part of a response to the cooling of global climate and its effect on surface processes. Some basins have inverted later, at around the time of the Mid-Pleistocene Revolution, coinciding with the increased severity of climate resulting from the 100 ka Milankovich cycles that followed that change. The progressive incision into the fills of these inverted sedimentary basins has also been linked to this climatic influence, perhaps taking effect as a result of erosional isostatic uplift, which would have replaced the accumulation-induced subsidence (also isostatic) of the basins. NW Europe, including Britain, had sediment-accumulating basins in the Early Cenozoic; the timing of their inversion is poorly known as a result of the paucity of preserved evidence from the Late Cenozoic in such areas. Endorheic basins that survive at the present day are mainly in regions of relative aridity and are often controlled by active tectonic structures, such as the pull-apart basins of the Dead Sea Fault Zone and similar examples. This review discusses the evidence from different climatic regions, tectonic settings and areas of different crustal type, with a view to elucidating meaningful patterns that might throw light on this phenomenon.

Published

2020

13. Extrapolation of microearthquake populations to predict consequences of low- 3 probability high impact events: the Pohang case study revisited 4 5

Author

Rob Westaway

Published

2020

14. Seismicity at Newdigate, Surrey, during 2018-2019: A candidate mechanism indicating causation by nearby oil production

Author

Rob Westaway

Published

2020

15. Borehole temperature log from the Glasgow Geothermal Energy Research Field Site: a record of past changes to ground surface temperature caused by urban development

Author

Sean M. Watson and Rob Westaway

Subjects

010504 meteorology & atmospheric sciences, business.industry, Earth science, Geothermal energy, Geothermal heating, Global warming, Borehole, Coal mining, technology, industry, and agriculture, Climate change, Geology, respiratory system, 010502 geochemistry & geophysics, 01 natural sciences, complex mixtures, respiratory tract diseases, otorhinolaryngologic diseases, Urban heat island, business, Geothermal gradient, 0105 earth and related environmental sciences

Abstract

As part of the Glasgow Geothermal Energy Research Field Site (GGERFS) project, intended as a test site for mine-water geothermal heat, the GGC-01 borehole was drilled in the Dalmarnock area in the east of the city of Glasgow, starting in November 2018. It was logged in January 2019 to provide a record of subsurface temperature to 197 m depth, in this urban area with a long history of coal mining and industrial development. This borehole temperature record is significantly perturbed away from its natural state, in part because of the ‘permeabilizing’ effect of past nearby coal mining and in part due to surface warming as a result of the combination of anthropogenic climate change and creation of a subsurface urban heat island by local urban development. Our numerical modelling indicates the total surface warming effect as 2.7°C, partitioned as 2.0°C of global warming since the Industrial Revolution and 0.7°C of local UHI development. We cannot resolve the precise combination of local factors that influence the surface warming because uncertainty in the subsurface thermal properties trades against uncertainty in the history of surface warming. However, the background upward heat flow through the shallow subsurface is estimated as only c. 28–33 mW m−2, depending on choice of other model parameters, well below the c. 80 mW m−2 expected in the Glasgow area. We infer that the ‘missing’ geothermal heat flux is entrained by horizontal flow at depth beyond the reach of the shallow GGC-01 borehole. Although the shallow subsurface in the study area is warmer than it would have been before the Industrial Revolution, at greater depths – between c. 90 and >300 m – it is colder, due to the effect of reduced background heat flow. In future the GGERFS project might utilize water from depths of c. 90 m, but the temperature of the groundwater at these depths is maintained largely by the past effect of surface warming, due to climate change and urban development; it is thus a resource that might be ‘mined’ but not sustainably replenished and, being the result of surface warming rather than upward heat flow, arguably should not count as ‘geothermal’ heat in the first place. Our analysis thus indicates that the GGERFS site is a poor choice as a test site for mine-water geothermal heat. Supplementary material: A summary history of coal mining in the study area is available at: https://doi.org/10.6084/m9.figshare.c.4911495.v2

Published

2020

16. Deep Geothermal Single Well heat production: critical appraisal under UK conditions

Author

Rob Westaway

Subjects

020209 energy, Geothermal heating, Geology, Subsidy, 02 engineering and technology, Environmental economics, Geotechnical Engineering and Engineering Geology, Thermal energy storage, Profit (economics), law.invention, Critical appraisal, law, 0202 electrical engineering, electronic engineering, information engineering, Earth and Planetary Sciences (miscellaneous), Capital cost, Geothermal gradient, Heat pump

Abstract

The idea of Deep Geothermal Single Well (DGSW) heat production has existed for many years, but with no consensus regarding its potential applicability: proponents have made claims regarding thermal outputs that appear exaggerated, whereas detractors have stated that the concept can never be economic unless the capital cost of drilling has already been discounted. However, because this technology offers the potential of delivering geothermal heat projects ‘off the shelf’ with a minimum of site-dependent research, the possibility exists of achieving cost-effective solutions. The present study sets out to investigate this topic subject to environmental and subsidy regimes applicable in the UK; the results might also be useful for other jurisdictions. Under these conditions, the variant of the technology with greatest potential for cost-effectiveness is the hcDGSW, or conductive DGSW with heat production via heat pump. Analytical modelling enables the physics of the heat-exchange processes within a hcDGSW to be approximated. It is thus established that this option can indeed be cost-effective under the current UK subsidy regime for deep geothermal heat, provided boreholes are deep enough and in localities where the geothermal gradient is high enough. The environmentally optimum operational mode (optimizing savings in CO2e emissions) involves heat production at a lower rate than the economically optimum mode (maximizing profit). If such projects are subsidized from public funds, a particular operational mode might be specified, maybe as a compromise between these optima. After the 20-year duration of the subsidy, the technology might well no longer be economic, but the infrastructure might be easily repurposed for seasonal heat storage, thus offering the potential of making a significant long-term contribution to sustainable future heat supply. These preliminary results indicate that more detailed appraisal of this technology variant is warranted.

Published

2018

17. The linking of the upper-middle and lower reaches of the Yellow River as a result of fluvial entrenchment

Author

David R. Bridgland, Yun Long Fan, Baotian Pan, Lian Yong Guo, Jef Vandenberghe, Rob Westaway, Zhenbo Hu, Vrije Universiteit Amsterdam, Earth and Climate, and Climate Change and Landscape Dynamics

Subjects

Archeology, 010504 meteorology & atmospheric sciences, Geochemistry, Drainage basin, Fluvial, Fenwei graben, Yellow River, Structural basin, 010502 geochemistry & geophysics, 01 natural sciences, Planation surface, Drainage system (geomorphology), SDG 14 - Life Below Water, Terrace, Geomorphology, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, Global and Planetary Change, geography, geography.geographical_feature_category, Sanmen gorge, Geology, Graben, Fluvial incision rate, Aeolian processes, Cenozoic

Abstract

The upper–middle Yellow River flows through the Fenwei graben, a structure resulting from extensional tectonism that was formed and repeatedly extended during the Cenozoic. The drainage system within this graben was formerly isolated from the lower reaches of the Yellow River system by the Xiaoshan mountains, an actively growing ∼ NW–SE trending range. The modern course of the Yellow River takes it through this range along the Sanmen gorge, the formation of which was of great significance in that it initiated through-going drainage between the upper–middle and lower reaches of the system. The timing of this event, which was clearly a critical point in the evolution of the Yellow River, can be established by dating the terraces in the gorge. Intermittent deepening of this gorge by the Yellow River from a high-level planation surface capping the mountain range has resulted in the formation of five terraces. Magnetostratigraphic records from aeolian deposits accumulated on these surfaces provide a geochronological sequence for this geomorphic archive, in which the ages of the planation surface and of terraces T5, T4, T3, T2, and T1 have been determined as ∼3.63 Ma, ∼1.24 Ma, ∼0.86 Ma, ∼0.62 Ma, ∼129 ka, and ∼12 ka, respectively. Under the constraint of this chronological framework, a model for landscape evolution is proposed here. Uplift of the inner Fenwei graben and of the surrounding mountain ranges led to dissection of the 3.63 Ma old planation surface in conjunction with the formation of the Sanmen gorge. Drainage of the lake previously occupying the basin would have promoted incision into the fluvio-lacustrine graben sediments; indeed, gorge formation through the Xiaoshan may have been initiated or intensified by lake overflow. The ages obtained for the planation surface and uppermost terrace suggest that the formation of the Sanmen gorge and the initiation of the through-going eastward drainage of the Yellow River occurred between 3.63 and 1.24 Ma. Before the start of gorge entrenchment, the products of erosion in the modern upper catchment of the Yellow River were unable to reach the sea. The dramatic increase in deposition rates in the Bohai Gulf (at the mouth of the modern Yellow River in the East China Sea), ∼1.0 Ma ago, thus resulted from the initiation of an integral (enlarged) Yellow River catchment drainage through the Sanmen gorge; it does not imply an increase in erosion rates at that time.

Published

2017

18. Risk governance strategy report (Project H2020 DESTRESS)

Author

Philippe Chavot, Olivier Ejderyan, Hanneke Puts, Willems Cees, Rob Westaway, Yeny Serrano Vanegas, Anne Masseran, Cyrille Bodin, Franziska Ruëff, Christine Heimlich, Barend van Engelenburg, Jean-Baptiste Zoungrana, Laboratoire Interuniversitaire des Sciences de l'Education et de la Communication (LISEC), Université de Strasbourg (UNISTRA)-Université de Lorraine (UL)-Université de Haute-Alsace (UHA) Mulhouse - Colmar (Université de Haute-Alsace (UHA)), Université de Strasbourg, European Project: 691728,H2020,H2020-LCE-2015-2,DESTRESS(2016), and Université de Strasbourg (UNISTRA)-Université de Haute-Alsace (UHA) Mulhouse - Colmar (Université de Haute-Alsace (UHA))-Université de Lorraine (UL)

Subjects

[SHS.INFO]Humanities and Social Sciences/Library and information sciences

Published

2019

19. Digging deeper : the influence of historical mining on Glasgow's subsurface thermal state to inform geothermal research

Author

Sean M. Watson, Rob Westaway, and Neil Burnside

Subjects

010506 paleontology, Groundwater flow, business.industry, Geothermal energy, Borehole, Geology, Entrainment (meteorology), 010502 geochemistry & geophysics, 01 natural sciences, Digging, Thematic map, Mining engineering, QE, business, Geothermal gradient, Heat flow, 0105 earth and related environmental sciences

Abstract

Studies of the former NE England coalfield in Tyneside demonstrated that heat flow perturbations in boreholes were due to the entrainment and lateral dispersion of heat from deeper in the subsurface through flooded mine workings. This work assesses the influence of historical mining on geothermal observations across Greater Glasgow. The regional heat flow for Glasgow is 60 mW m−2 and, after correction for palaeoclimate, is estimated as c. 80 mW m−2. An example of reduced heat flow above mine workings is observed at Hallside (c. 10 km SE of Glasgow), where the heat flow through a 352 m deep borehole is c. 14 mW m−2. Similarly, the heat flow across the 199 m deep GGC01 borehole in the Glasgow Geothermal Energy Research Field Site is c. 44 mW m−2. The differences between these values and the expected regional heat flow suggest a significant component of horizontal heat flow into surrounding flooded mine workings. This deduction also influences the quantification of deeper geothermal resources, as extrapolation of the temperature gradient above mine workings would underestimate the temperature at depth. Future projects should consider the influence of historical mining on heat flow when temperature datasets such as these are used in the design of geothermal developments. Supplementary material: Background information on the chronology of historical mining at each borehole location and a summary of groundwater flow in mine workings beneath Glasgow are available at https://doi.org/10.6084/m9.figshare.c.4681100 Thematic collection: This article is part of the ‘Early Career Research’ available at: https://www.lyellcollection.org/cc/SJG-early-career-research

Published

2019

20. Geometry of the Butterknowle Fault at Bishop Auckland (County Durham, UK), from gravity survey and structural inversion

Author

Richard Middlemiss, Sean M. Watson, Aaron Williams, Tom Harley, and Rob Westaway

Subjects

geography, geography.geographical_feature_category, Gravimeter, business.industry, Geothermal energy, Inversion (geology), Alluvial fan, Geometry, Structural basin, Fault (geology), Carboniferous, business, Geothermal gradient, Geology

Abstract

The Butterknowle Fault is a major normal fault of Dinantian age in northern England, bounding the Stainmore Basin and the Alston Block. This fault zone has been proposed as a source of deep geothermal energy; to facilitate the design of a geothermal project in the town of Bishop Auckland further investigation of its geometry was necessary and led to the present study. We show using three-dimensional modelling of a dense local gravity survey, combined with structural inversion, that this fault has a ramp-flat-ramp geometry, ~250 m of latest Carboniferous / Early Permian downthrow having occurred on a fault surface that is not a planar updip continuation of that which had accommodated the many kilometres of Dinantian extension. The gravity survey also reveals relatively low-density sediments in the hanging-wall of the Dinantian fault, interpreted as porous alluvial fan deposits, indicating that a favourable geothermal target indeed exists in the area. This study demonstrates the value of gravity data for elucidating geological structure, even in a well-studied region such as Britain, and highlights the need to verify published structural interpretations as future deep geothermal projects are designed. Future work of this type might be undertaken more expeditiously using microelectromechanical gravimeters.

Published

2019

21. Exponential trends in flowback chemistry from a hydraulically stimulated deep geothermal borehole in granite; Pohang, South Korea

Author

David Banks, Hannes Hofmann, Neil Burnside, Günter Zimmermann, and Rob Westaway

Subjects

lcsh:GE1-350, Brackish water, Borehole, Exponential function, Mixing tank, Electrical resistivity and conductivity, QE, TA170, QD, Petrology, Geothermal gradient, Surface water, lcsh:Environmental sciences, Groundwater

Abstract

Samples of flowback water from a 4.3 km deep geothermal borehole in granite (Pohang, South Korea) were collected following a period of hydraulic stimulation by injection of surface water. Electrical conductivity, temperature and water chemistry of the flowback water were measured. To a first approximation, the data conform closely to a simple ‘mixing tank’ model, with an exponential trend between two end members: an initial injected surface water to a more brackish ‘resident groundwater’ composition. Significant deviation from the ‘mixing tank’ trend would be an indication of significant recent water-rock interaction or other anomalous factors. Such a deviation can tentatively be seen in Na+/Cl- data, especially between 88 and 200 m3 flowback (2.8 to 8.8 hr).

Published

2019

22. Drainage evolution in the Polish Sudeten Foreland in the context of European fluvial archives

Author

Rob Westaway, Lucyna Wachecka-Kotkowska, Jerzy A. Czerwonka, Dariusz Krzyszkowski, Peter Allen, and David R. Bridgland

Subjects

010506 paleontology, Provenance, 010504 meteorology & atmospheric sciences, Pleistocene, Fluvial, Orogeny, 01 natural sciences, Paleontology, Arts and Humanities (miscellaneous), Drainage system (geomorphology), General Earth and Planetary Sciences, Glacial period, Cenozoic, Foreland basin, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

Detailed study of subsurface deposits in the Polish Sudeten Foreland, particularly with reference to provenance data, has revealed that an extensive preglacial drainage system developed there in the Pliocene–Early Pleistocene, with both similarities and differences in comparison with the present-day Odra (Oder) system. This foreland is at the northern edge of an intensely deformed upland, metamorphosed during the Variscan orogeny, with faulted horsts and grabens reactivated in the Late Cenozoic. The main arm of preglacial drainage of this area, at least until the early Middle Pleistocene, was the Palaeo–Nysa Kłodzka, precursor of the Odra left-bank tributary of that name. Significant preglacial evolution of this drainage system can be demonstrated, including incision into the landscape, prior to its disruption by glaciation in the Elsterian (Sanian) and again in the early Saalian (Odranian), which resulted in burial of the preglacial fluvial archives by glacial and fluvioglacial deposits. No later ice sheets reached the area, in which the modern drainage pattern became established, the rivers incising afresh into the landscape and forming post-Saalian terrace systems. Issues of compatibility of this record with the progressive uplift implicit in the formation of conventional terrace systems are examined, with particular reference to crustal properties, which are shown to have had an important influence on landscape and drainage evolution in the region.

Published

2019

23. Rapid water-rock interactions evidenced by hydrochemical evolution of flowback fluid during hydraulic stimulation of a deep geothermal borehole in granodiorite: Pohang, Korea

Author

David Banks, Rob Westaway, Hannes Hofmann, Günter Zimmermann, Adrian J. Boyce, and Neil Burnside

Subjects

Stable isotope ratio, Geochemistry, Borehole, 010501 environmental sciences, 010502 geochemistry & geophysics, 01 natural sciences, Pollution, Isotopes of oxygen, Hydrology (agriculture), Geochemistry and Petrology, Environmental Chemistry, Environmental science, TA170, Surface water, Dissolution, Quartz, Geothermal gradient, 0105 earth and related environmental sciences

Abstract

Flowback water from the 4215 m deep (True Vertical Depth) PX-1 borehole, following the August 2017 hydraulic stimulation of a granodiorite geothermal reservoir in Pohang, South Korea, was monitored for a suite of physicochemical, chemical and isotopic parameters. The results provide unique insights into mixing processes, fluid evolution and rapid water-rock interaction in a deep geothermal system. Injected water for stimulation was relatively fresh, oxidising surface water, with temperature 29.5 °C and pH c. 6.5. The flowback water showed an increasing content of most solutes, with the evolution conforming to an exponential ‘flushing’ model for conservative solutes such as chloride. Flowback water became progressively Na–Cl dominated, with a circumneutral pH (7.1) and negative oxidation-reduction potential (c. −180 mV). Some solutes (including, Na, K and Si) increased more rapidly than a flushing model would suggest, implying that these had been acquired by the flowback water due to mineral hydrolysis. Stable isotopes of O and H indicate that initially meteoric waters have undergone geothermal oxygen isotope exchange with minerals. Evolution of redox species in recovered water suggests progressively oxidising zonation around the injection borehole in an otherwise reducing reservoir. Rapidly increasing silica concentrations in flowback water suggests extensive quartz dissolution and indicated a reservoir temperature of up to 169 °C. This lends plausible, if equivocal support to the hypothesis that quartz dissolution by injection water may have contributed to triggering movement on the pre-stressed fault associated with the November 2017 Mw 5.5 Pohang earthquake.

Published

2019

24. Extrapolation of populations of small earthquakes to predict consequences of low- probability high impact events: The Pohang case study revisited

Author

Rob Westaway

Subjects

Seismometer, education.field_of_study, Renewable Energy, Sustainability and the Environment, Population, 0211 other engineering and technologies, Extrapolation, Magnitude (mathematics), Geology, 02 engineering and technology, 010502 geochemistry & geophysics, Geotechnical Engineering and Engineering Geology, 01 natural sciences, Economic risk, Environmental science, 021108 energy, education, Geothermal gradient, Seismology, Economic consequences, All cause mortality, 0105 earth and related environmental sciences

Abstract

The magnitude (MW) 5.5 Pohang, Korea, earthquake on 15 November 2017, induced by the Pohang Engineered Geothermal Systems (EGS) project, caused one fatality and ∼US$300 million of economic consequences. The Commission, appointed by the Korean Government to investigate this earthquake, has made public a release of data including magnitudes of the smaller earthquakes associated with the well stimulations. On the basis of this earthquake population, it has been proposed that a significant probability of such losses was predictable beforehand, and that the project should have been suspended, implying that its developer was remiss for not doing so. This argument depends on the low b-value estimated, ∼0.61. However, three factors are shown to contribute, individually or in combination, to inaccuracy of these magnitude determinations: the low recording bandwidth of the permanent seismograph stations in the area; miscalibration of the formula for determining local magnitudes in Korea; and the relation used to estimate magnitudes of smaller events from larger events by template matching. These factors all cause underestimation of magnitudes of the smallest events documented, resulting in underestimation of b-values. The true b-values are higher, being 1.12 for the earthquakes associated with the August 2017 stimulation of well PX-1; similar values are estimated for the other well stimulations. A consequence of this analysis is that the probability of any earthquake as large as MW = 5.5, predicted ahead of its occurrence by extrapolation using b-values, was much lower than has been claimed. This analysis highlights the need for agreed workflow specifications for reporting datasets like this, where the data might influence prosecution of EGS developers, as well as agreed specifications for acceptable economic risk arising from EGS projects.

Published

2021

25. Unravelling the relative contributions of climate change and ground disturbance to subsurface temperature perturbations: Case studies from Tyneside, UK

Author

Paul L. Younger and Rob Westaway

Subjects

Hydrology, 010504 meteorology & atmospheric sciences, Groundwater flow, Renewable Energy, Sustainability and the Environment, Geothermal heating, Global warming, Borehole, Climate change, Geology, 010502 geochemistry & geophysics, Geotechnical Engineering and Engineering Geology, 01 natural sciences, Heat flux, Urban heat island, Groundwater, 0105 earth and related environmental sciences

Abstract

When assessing subsurface urban heat islands (UHIs) it is important to distinguish between localized effects of land-use change and the impacts of global climate change. However, few investigations have successfully unraveled the two influences. We have investigated borehole temperature records from the urban centres of Gateshead and Newcastle upon Tyne in northeast England, to ascertain the effects on subsurface temperatures of climate change and changes in ground conditions due to historic coal mining and more recent urban development. The latter effects are shown to be substantial, albeit with significant variations on a very local scale. Significant subsurface UHIs are indeed evident in both urban centres, estimated as 2.0 °C in Newcastle and 4.5 °C in Gateshead, the former value being comparable to the 1.9 °C atmospheric UHI previously measured for the Tyneside conurbation as a whole. We interpret these substantial subsurface UHIs as a consequence of the region’s long history of urban and industrial development and associated surface energy use, possibly supplemented in Gateshead by the thermal effect of trains braking in an adjacent shallow railway tunnel. We also show that a large proportion of the expected conductive heat flux from the Earth’s interior beneath both Gateshead and Newcastle becomes entrained by groundwater flow and transported elsewhere, through former mineworkings in which the rocks have become ‘permeabilised’ during the region’s long history of coal mining. Discharge of groundwater at a nearby minewater pumping station, Kibblesworth, has a heat flux that we estimate as ∼7.5 MW; it thus ‘captures’ the equivalent of roughly two thirds of the geothermal heat flux through a >100 km 2 surrounding region. Modelling of the associated groundwater flow regime provides first-order estimates of the hydraulic transport properties of ‘permeabilised’ Carboniferous Coal Measures rocks, comprising permeability ∼3 × 10 −11 m 2 or ∼30 darcies, hydraulic conductivity ∼2 × 10 −4 m s −1 , and transmissivity ∼2 × 10 −3 m 2 s −1 or ∼200 m 2 day −1 ; these are very high values, comparable to what one might expect for karstified Carboniferous limestone. Furthermore, the large-magnitude subsurface UHIs create significant downward components of conductive heat flow in the shallow subsurface, which are supplemented by downward heat transport by groundwater movement towards the flow network through the former mineworkings. The warm water in these workings has thus been heated, in part, by heat drawn from the shallow subsurface, as well as by heat flowing from the Earth’s interior. Similar conductive heat flow and groundwater flow responses are expected in other urban former coalfield regions of Britain; knowledge of the processes involved may facilitate their use as heat stores and may also contribute to UHI mitigation.

Published

2016

26. Repurposing of disused shale gas wells for subsurface heat storage: preliminary analysis concerning UK issues

Author

Rob Westaway

Subjects

education.field_of_study, Resource (biology), Waste management, 020209 energy, Population, Environmental engineering, Borehole, Geology, 02 engineering and technology, Raw material, Reuse, Geotechnical Engineering and Engineering Geology, Thermal energy storage, 0202 electrical engineering, electronic engineering, information engineering, Earth and Planetary Sciences (miscellaneous), Extraction (military), education, Oil shale

Abstract

Development of many wells is envisaged in the UK in coming decades to exploit the abundant shale gas resource as fuel and petrochemical feedstock. Forward planning is therefore warranted regarding reuse of the resulting subsurface infrastructure after gas production has ceased. It is shown that this infrastructure might be repurposed for borehole thermal energy storage (BTES). Preliminary calculations, assuming an idealized cycle of summer heat storage and winter heat extraction, indeed demonstrate annual storage of c. 6 TJ or c. 2 GWh of energy per BTES well. Summed over the anticipated well inventory, a significant proportion of the UK9s future heat demand might thus be supplied. This form of BTES technology has particular relevance to the UK, where the shale resource is located in relatively densely populated areas; it is especially significant for Scotland, where the resource coincides with a particularly high proportion of the population and heat demand.

Published

2016

27. The importance of characterizing uncertainty in controversial geoscience applications: induced seismicity associated with hydraulic fracturing for shale gas in northwest England

Author

Rob Westaway

Subjects

Focal mechanism, geography, geography.geographical_feature_category, Earth science, Paleontology, Geology, Induced seismicity, Fault (geology), Stress field, Hydraulic fracturing, Rock mechanics, Epicenter, Microearthquake, Seismology

Abstract

Fracking of the Preese Hall-1 well in 2011 induced microseismicity that was strong enough to be felt. This occurrence of ‘nuisance’ microearthquakes, unexpected at the time, was a major factor resulting in adverse public opinion against shale gas in the UK and was thus of significant political importance. Despite this, and notwithstanding the technical importance of this instance of induced seismicity for informing future shale gas projects, it has received little integrated study; contradictory results have indeed been reported in analyses that lack integration. This instance therefore provides a case study to illustrate how a small but significant multi-disciplinary geoscience dataset may be put to best use, including how best to quantify uncertainties in key parameters, which may themselves be relatively poorly quantified but whose values may significantly affect the ability to understand the occurrence of induced seismicity. The best-recorded event in this induced microearthquake sequence (at 08:12 on 2 August 2011) is thus assigned an epicentre circa British National Grid reference SD 377358, south of the Preese Hall-1 wellhead, a focal depth of ∼2.5 km, and a focal mechanism with strike 030°, dip 75°, and rake −20°, this NNE-striking nodal plane being the inferred fault plane. Like other parts of Britain, this locality exhibits high differential stress, with maximum and minimum principal stresses roughly north-south and east-west. This instance indeed fits an emerging trend of the occurrence of relatively large induced earthquakes in localities with high differential stress; such an association was predicted many years ago on the basis of experimental rock mechanics data, so observational confirmation might well have been anticipated and should thus not have been unexpected. Many steep faults, striking NNE-SSW or NE-SW, mostly Carboniferous-age normal faults, are present; the stress field is favourably oriented for their left-lateral reactivation, southward leakage of fracking fluid into one such fault having presumably caused the induced seismicity. Given the pervasive presence of similarly oriented faults, future occurrences of similar induced seismicity should be planned for; they pose a significant technical challenge to any future UK shale-gas industry.

Published

2016

28. Evidence for late Middle Pleistocene glaciation of the British margin of the southern North Sea

Author

David R. Bridgland, Allan Straw, Tom S. White, and Rob Westaway

Subjects

010506 paleontology, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Pleistocene, Paleontology, Biostratigraphy, 01 natural sciences, Archaeology, Isotopes of oxygen, Arts and Humanities (miscellaneous), Terrace (geology), Stage (stratigraphy), Earth and Planetary Sciences (miscellaneous), Amino acid dating, Glacial period, North sea, Geology, 0105 earth and related environmental sciences

Abstract

The timing and extent of late Middle Pleistocene glaciations in England and the southern North Sea are controversial topics. The recent Trent Valley Palaeolithic Project uncovered evidence for a post-Anglian, pre-Devensian glaciation that affected much of central and eastern England; the Wragby Till of Lincolnshire is associated with this glacial event, attributed here to Marine Oxygen Isotope Stage (MIS) 8. Coeval glacigenic deposits in the Middle Trent suggest that both western and eastern lobes of MIS 8 ice reached the Derby area. These various deposits have been assigned previously to MIS 12, 10 or 6, although the last can be excluded for the Wragby Till, which is overlain by Trent terrace deposits assigned to MIS 7 (from biostratigraphy and amino acid dating). The disposition of these glacigenic deposits within the landscape, particularly in relation to terrace deposits of the ancestral River Trent, and the absence of MIS 11 and 9 deposits within the footprint of the glaciation also provide compelling evidence. At its maximum extent in eastern England the MIS 8 ice reached the Peterborough area; identifying its extension (or otherwise) into areas such as north-west Norfolk and the West Midlands requires further work.

Published

2016

29. Isostatic compensation of Quaternary vertical crustal motions: coupling between uplift of Britain and subsidence beneath the North Sea

Author

Rob Westaway

Subjects

010506 paleontology, Underplating, Paleontology, Subsidence, 010502 geochemistry & geophysics, 01 natural sciences, Mantle plume, Plate tectonics, Arts and Humanities (miscellaneous), Magmatism, Earth and Planetary Sciences (miscellaneous), Quaternary, Cenozoic, Geomorphology, Paleogene, Geology, 0105 earth and related environmental sciences

Abstract

New data from offshore and onshore regions confirm the view that the Quaternary uplift of Britain and subsidence beneath the North Sea are coupled, mediated by lower-crustal flow induced by the lateral pressure gradient caused by climate-driven surface processes. Most measured onshore uplift rates, in both upland and lowland localities, are only applicable since the Mid-Pleistocene Revolution; beforehand, generally lower rates prevailed. Earlier (?Oligocene–Pliocene) phases of uplift and subsidence had typically even lower rates; furthermore, the western margin of the North Sea depocentre was ∼200 km farther from the modern coastline of north-east England. In the earliest Cenozoic, complex isostatic adjustments occurred in response to the magmatism associated with the Iceland mantle plume; the contemporaneous land surface (relative to the present-day rock column) in northern England was typically ∼1500 m OD. However, this activity died out during the Palaeogene; the main effect of these events on the modern isostatic configuration was via the emplacement of thick mafic underplating, which now constricts the mobile lower-crustal layer, explaining the Late Cenozoic ultra-stability of Ireland. The evidence enables interpretations of the present-day topography of Britain as static, caused by the Iceland mantle plume, or actively developing in response to plate motions or plate boundary forces, to be excluded.

Published

2016

30. Keeping warm: a review of deep geothermal potential of the UK

Author

Dac Manning, Alistair T. McCay, Paul L. Younger, Jonathan Gordon Gluyas, J Craig, N. S. Narayan, Charlotte Adams, Jonathan P. Busby, Sean M. Watson, Rob Westaway, HL Robinson, and Catherine M. Hirst

Subjects

education.field_of_study, Primary energy, business.industry, Mechanical Engineering, Geothermal energy, Geothermal heating, Population, Fossil fuel, 0211 other engineering and technologies, Energy Engineering and Power Technology, 02 engineering and technology, 010502 geochemistry & geophysics, 01 natural sciences, Renewable energy, Environmental protection, Greenhouse gas, Environmental science, business, education, Geothermal gradient, 021101 geological & geomatics engineering, 0105 earth and related environmental sciences

Abstract

In 2015, the primary energy demand in the UK was 202.5 million tonnes of oil equivalent (mtoe = 848 EJ). Of this, about 58 mtoe (2.43 EJ) was used for space heating. Almost all of this heat was from burning fossil fuels either directly (50% of all gas used is for domestic purposes) or indirectly for power generation. Burning fossil fuels for heat released about 160 million tonnes of carbon dioxide in 2015. The UK must decarbonise heating for it to meet its commitments on emissions reduction. UK heat demand can be met from ultra-low-carbon, low enthalpy geothermal energy. Here we review the geothermal potential of the UK, comprising a combination of deep sedimentary basins, ancient warm granites and shallower flooded mines. A conservative calculation of the contained accessible heat in these resources is 200 EJ, about 100 years supply. Presently only one geothermal system is exploited in the UK. It has been supplying about 1.7MWT (heat) to Southampton by extracting water at a temperature of 76 ℃ from a depth of 1.7 km in the Wessex Basin. Like Southampton, most of the major population centres in the UK lie above or adjacent to major geothermal heat sources. The opportunity for using such heat within district heating schemes is considerable. The consequences of developing a substantial part of the UK’s geothermal resource are profound. The baseload heating that could be supplied from low enthalpy geothermal energy would cause a dramatic fall in the UK’s emissions of greenhouse gases, reduce the need for separate energy storage required by the intermittent renewables (wind and solar) and underpin a significant position of the nation’s energy security for the foreseeable future, so lessening the UK’s dependence on imported oil and gas. Investment in indigenous energy supplies would also mean retention of wealth in the UK.

Published

2018

31. The use of uplift modelling in the reconstruction of drainage development and landscape evolution in the repeatedly glaciated Trent catchment, English Midlands, UK

Author

Mark J. White, David R. Bridgland, Andy J. Howard, Tom S. White, and Rob Westaway

Subjects

Hydrology, geography, geography.geographical_feature_category, Pleistocene, Drainage basin, Paleontology, Fluvial, Geology, Structural basin, Interglacial, Sedimentary rock, Physical geography, Glacial period, Quaternary

Abstract

The Trent Valley Palaeolithic Project has recently investigated the Quaternary evolution of the River Trent, the northernmost river system in western Europe with a documented long-timescale terrace staircase. The uppermost and lowermost reaches of the Trent, which drains the English Midlands, were glaciated during Marine oxygen Isotope Stage (MIS) 2, but older fluvial terraces dating back to MIS 8 are preserved in the remainder of the catchment, delineating the former course through the Lincoln Gap and across the Fen Basin (the modern course to the Humber estuary dating only from the latest Pleistocene). Numerical modelling enables lateral variations in uplift across the catchment to be deduced from differences in height of these fluvial terraces above the modern valley floor. Uplift rates thus indicated over the last two climate cycles attain values of ∼0.08 mm a−1 around Nottingham and Derby in the middle reach of the Trent, but are significantly lower elsewhere in the catchment; these variations are shown to relate to lateral variations in crustal properties, primarily variations in radioactive heat production in the underlying continental crust. Glaciation during the late Middle Pleistocene (MIS 8) caused significant changes to the Trent catchment, including the integration of the modern Upper Trent with the rest of the system. Older sedimentary evidence is much more fragmentary, but is used along with the results of the uplift modelling to reconstruct the earlier drainage. It is thus inferred that between the Anglian (MIS 12) and Wragby (MIS 8) glaciations the Trent already flowed into the Fen Basin via the Lincoln Gap, but the smaller-than-present catchment, indicated by gravel lithology, resulted in a much steeper longitudinal gradient, such that during interglacials (MIS 11 and 9) an elongated estuary would have developed, extending inland almost to the present location of Newark. Prior to the Anglian, much of the modern Trent catchment, including the rivers Derwent and Dove, drained into the former Bytham River. The modern Middle Trent catchment downstream of Nottingham was drained by a relatively small ‘Ancaster Trent’ river, which flowed above the Ancaster Gap; analysis of gravel lithology suggests that it probably joined the Bytham in the area that now forms the Fen Basin.

Published

2015

32. Comment on ‘Life cycle environmental impacts of UK shale gas’ by L. Stamford and A. Azapagic. Applied Energy, 134, 506–518, 2014

Author

Chris Cornelius, Paul L. Younger, and Rob Westaway

Subjects

business.industry, Mechanical Engineering, Global warming, Environmental engineering, Climate change, Building and Construction, Management, Monitoring, Policy and Law, General Energy, Electricity generation, Work (electrical), Environmental protection, Ozone layer, Environmental science, Coal, Energy source, business, Life-cycle assessment

Abstract

In the recent work entitled “Life cycle environmental impacts of UK shale gas” (Applied Energy, 134 (2014) 506–518) Stamford and Azapagic (2014) make a first attempt at quantifying a range of overall lifecycle impacts of shale gas production in the UK. Their analysis led to some very unfavourable comparisons with other energy technologies and concluded that, for three types of impact (depletion of the stratospheric ozone layer, photochemical pollution, and terrestrial eco-toxicity), shale gas is ‘worse’ even than coal as an energy source for generating electricity; furthermore, uncertainties in input data mean that it might also be worse than coal for three additional impacts (on global warming, acidification, and human toxicity). One of their principal inferences is, therefore, that shale gas development in the UK should be subject to stringent environmental regulation, to ensure that it is only developed where it can be demonstrated to regulatory authorities on a well-by-well basis that these and other impacts can be minimized. The present commentary reassesses some of the conclusions reached by this published analysis.

Published

2015

33. River terrace development in the NE Mediterranean region (Syria and Turkey) : patterns in relation to crustal type

Author

Tuncer Demir, Mohamad Daoud, Ali Seyrek, David R. Bridgland, Rob Westaway, and Mohammad Abou Romieh

Subjects

Mediterranean climate, Archeology, Global and Planetary Change, 010504 meteorology & atmospheric sciences, Environmental change, Terrace (agriculture), Fluvial, Geology, 010502 geochemistry & geophysics, 01 natural sciences, Fluvial terrace, River terraces, Interglacial, Physical geography, Quaternary, Geomorphology, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences

Abstract

It is widely recognized that the optimal development of river terraces globally has been in the temperate latitudes, with NW and Central Europe being areas of particular importance for the preservation of such archives of Quaternary environmental change. There is also a growing consensus that the principal drivers of terrace formation have been climatic fluctuation against a background of progressive (but variable) uplift. Nonetheless river terraces are widely preserved in the Mediterranean region, where they have often been attributed to the effects of neotectonic activity, with a continuing debate about the relative significance of fluctuating temperature (glacials–interglacials) and precipitation (pluvials–interpluvials). Research in Syria and southern–central Turkey (specifically in the valleys of the Tigris and Ceyhan in Turkey, the Kebir in Syria and the trans-border rivers Orontes and Euphrates) has underlined the importance of uplift rates in dictating the preservation pattern of fluvial archives and has revealed different patterns that can be related to crustal type. The NE Mediterranean coastal region has experienced unusually rapid uplift in the Late Quaternary. The relation between the Kebir terraces and the staircase of interglacial raised beaches preserved along the Mediterranean coastline of NW Syria reinforces previous conclusions that the emplacement of the fluvial terrace deposits in the Mediterranean has occurred during colder climatic episodes.

Published

2017

34. Fluvial deposits as an archive of early human activity : progress during the 20 years of the Fluvial Archives Group

Author

Marie-Hélène Moncel, Jackie Despriée, Parth R. Chauhan, Andrew D. Shaw, Nicole Limondin-Lozouet, Pedro P. Cunha, Jean‑luc Locht, Danielle C. Schreve, Pierre Voinchet, Mark J. White, Rob Westaway, Tom S. White, Rebecca M. Briant, Jean-Jacques Bahain, David R. Bridgland, Pierre Antoine, António A. Martins, Department of Humanities and Social Sciences [IISER Mphali], Indian Institute of Science Education and Research Mohali (IISER Mohali), Histoire naturelle de l'Homme préhistorique (HNHP), Muséum national d'Histoire naturelle (MNHN)-Université de Perpignan Via Domitia (UPVD)-Centre National de la Recherche Scientifique (CNRS), and Centre National de la Recherche Scientifique (CNRS)-Muséum national d'Histoire naturelle (MNHN)-Université de Perpignan Via Domitia (UPVD)

Subjects

Fluvial archives, 010506 paleontology, Archeology, Old World, Pleistocene, [SHS.ARCHEO]Humanities and Social Sciences/Archaeology and Prehistory, Terrace (agriculture), Hominin occupation, Fluvial, Levallois, 010502 geochemistry & geophysics, 01 natural sciences, Group (stratigraphy), River terraces, Middle Palaeolithic, East Asia, Ecology, Evolution, Behavior and Systematics, Lower Palaeolithic, 0105 earth and related environmental sciences, Global and Planetary Change, Geology, Acheulian Levallois, Archaeology, Sedimentary rock, Acheulian, geog

Abstract

International audience; Fluvial sedimentary archives are important repositories for Lower and Middle Palaeolithic artefacts throughout the ‘Old World’, especially in Europe, where the beginning of their study coincided with the realisation that early humans were of great antiquity. Now that many river terrace sequences can be reliably dated and correlated with the globally valid marine isotope record, potentially useful patterns can be recognized in the distribution of the find-spots of the artefacts that constitute the large collections that were assembled during the years of manual gravel extraction. This paper reviews the advances during the past two decades in knowledge of hominin occupation based on artefact occurrences in fluvial contexts, in Europe, Asia and Africa. As such it is an update of a comparable review in 2007, at the end of IGCP Project no. 449, which had instigated the compilation of fluvial records from around the world during 2000–2004, under the auspices of the Fluvial Archives Group. An overarching finding is the confirmation of the well-established view that in Europe there is a demarcation between handaxe making in the west and flake–core industries in the east, although on a wider scale that pattern is undermined by the increased numbers of Lower Palaeolithic bifaces now recognized in East Asia. It is also apparent that, although it seems to have appeared at different places and at different times in the later Lower Palaeolithic, the arrival of Levallois technology as a global phenomenon was similarly timed across the area occupied by Middle Pleistocene hominins, at around 0.3 Ma.

Published

2017

35. Gamma-ray spectrometry in the field: Radioactive heat production in the Central Slovakian Volcanic Zone

Author

Rob Westaway, Thomas L. Harley, and Alistair T. McCay

Subjects

010506 paleontology, geography, geography.geographical_feature_category, Pluton, Geochemistry, Trace element, 010502 geochemistry & geophysics, 01 natural sciences, Gravity anomaly, Geophysics, Volcano, Geochemistry and Petrology, Erosion, Caldera, Geomorphology, Cenozoic, Geology, Bouguer anomaly, 0105 earth and related environmental sciences

Abstract

We report 62 sets of measurements from central-southern Slovakia, obtained using a modern portable gamma-ray spectrometer, which reveal the radioactive heat production in intrusive and extrusive igneous rocks of the Late Cenozoic Central Slovakian Volcanic Zone. Sites in granodiorite of the Stiavnica pluton are thus shown to have heat production in the range ~ 2.2–4.9 μW m− 3, this variability being primarily a reflection of variations in content of the trace element uranium. Sites in dioritic parts of this pluton have a lower, but overlapping, range of values, ~ 2.1–4.4 μW m− 3. Sites that have been interpreted in adjoining minor dioritic intrusions of similar age have heat production in the range ~ 1.4–3.3 μW m− 3. The main Stiavnica pluton has zoned composition, with potassium and uranium content and radioactive heat production typically increasing inward from its margins, reflecting variations observed in other granodioritic plutons elsewhere. It is indeed possible that the adjoining dioritic rocks, hitherto assigned to other minor intrusions of similar age, located around the periphery of the Stiavnica pluton, in reality provide further evidence for zonation of the same pluton. The vicinity of this pluton is associated with surface heat flow ~ 40 mW m− 2 above the regional background. On the basis of our heat production measurements, we thus infer that the pluton has a substantial vertical extent, our preferred estimate for the scale depth for its downward decrease in radioactive heat production being ~ 8 km. Nonetheless, this pluton lacks any significant negative Bouguer gravity anomaly. We attribute this to the effect of the surrounding volcanic caldera, filled with relatively low-density lavas, ‘masking’ the pluton's own gravity anomaly. We envisage that emplacement occurred when the pluton was much hotter, and thus of lower density, than at present, its continued uplift, evident from the local geomorphology, being the isostatic consequence of localized erosion. The heat production in this intrusion evidently plays a significant role, hitherto unrecognized, in the regional geothermics.

Published

2017

36. Integrating induced seismicity with rock mechanics: a conceptual model for the 2011 Preese Hall fracture development and induced seismicity

Author

Rob Westaway, Rutter, E. H., Mecklenburgh, J., and Taylor, K.

Subjects

geography, geography.geographical_feature_category, Microseism, 010504 meteorology & atmospheric sciences, Geology, Ocean Engineering, Induced seismicity, Fault (geology), Classification of discontinuities, 010502 geochemistry & geophysics, 01 natural sciences, Stress field, Rock mechanics, Wellhead, Fracture (geology), Seismology, 0105 earth and related environmental sciences, Water Science and Technology

Abstract

By integrating multiple datasets with relevant theory, covering fluid injection and fracturing, a conceptual model has been developed for the fracture development and induced seismicity associated with the fracking in 2011 of the Carboniferous Bowland Shale in the Preese Hall-1 well in Lancashire, NW England. Key features of this model include the steep fault that has been recognized adjoining this well, which slipped in the largest induced earthquakes, and the presence of a weak subhorizontal ‘flat’ within the depth range of the fluid injection, which was ‘opened’ by this injection. Taking account of the geometry of the fault and the orientation of the local stress field, the model predicts that the induced seismicity was concentrated approximately 700 m SSE of the Preese Hall-1 wellhead, in roughly the place where microseismic investigations have established that this activity was located. A further key observation, critical to explaining the subsequent sequence of events, is the recognition that the fluid injection during stage 2 of this fracking took place at a high net pressure, approximately 17 MPa larger than necessary. As a result, the fluid injection ‘opened’ a patch of the ‘flat’, making a hydraulic connection with the fracture network already created during stage 1. Continued fluid injection thus enlarged the latter fracture network, which ultimately extended southwards far enough to intersect the steep part of the fault and induce the largest earthquake of the sequence there. Subsequent fluid injection during fracking stages 3 and 4 added to the complexity of this interconnected fracture network, in part due to the injection during stage 4 being again under high net pressure. This model can account for many aspects of the Preese Hall record, notably how it was possible for the induced fracture network to intersect the seismogenic fault so far from the injection point: the interconnection between fractures meant that the stage 1 fracture continued to grow during stage 2, rather than two separate smaller fractures, isolated from each other, being created. Calculations indicate that, despite the high net pressure, the project only ‘went wrong’ by a narrow margin: had the net pressure been approximately 15 MPa rather than approximately 17 MPa the induced seismicity would not have occurred. The model also predicts that some of the smaller induced earthquakes had tensile or ‘hybrid’ focal mechanisms; this would have been testable had any seismographs been deployed locally to monitor the activity. The analysis emphasizes the undesirability of injecting fracking fluid under high net pressure in this region, where flat patches of fault and/or subhorizontal structural discontinuities are present. Recommendations follow for future ‘best practice’ or regulatory guidelines.

Published

2017

37. First field application of a cyclic injection protocol and an advanced traffic light system to mitigated seismic risk of hydraulic stimulation at the Pohang Enhanced Geothermal System in Korea

Author

Hannes Hofmann, G. Zimmermann, Arno Zang, Marton Pal Farkas, Ernst Huenges, Ki-Bok Min, Sehyeok Park, Kwang-Il Kim, Peter Fokker, Rob Westaway, Falko Bethmann, Peter Meier, Frederic Guinot, Kern Shin Yoon, Jaiwon Choi, Uijin Jeong, Young Hun Han, Tae Jong Lee, Yoon Ho Song, Myung Sun Kim, Byoung Joon Yoon, Keun Soo Lee, and Kwang Yeom Kim

Published

2017

38. Relation between alternations of uplift and subsidence revealed by Late Cenozoic fluvial sequences and physical properties of the continental crust

Author

David R. Bridgland and Rob Westaway

Subjects

Archeology, geography, geography.geographical_feature_category, Proterozoic, Archean, Continental crust, Fluvial, Geology, Crust, Craton, Paleontology, Mafic, Geomorphology, Geothermal gradient, Ecology, Evolution, Behavior and Systematics

Abstract

Reversals in vertical crustal motion, alternations between uplift and subsidence over time scales of hundreds of thousands of years or more, have been identified in Late Cenozoic fluvial sequences in many regions worldwide. They form a class of fluvial archive that is distinct from the extreme stability observed in Archaean cratons and the monotonic uplift or subsidence that is widely observed in other regions. Such alternations between uplift and subsidence are characteristic of regions of Early or Middle Proterozoic crust, where the initial crustal consolidation included the development of a thick ‘root’ of mafic material at the base of the crust; the present study focuses on localities with this crustal type in the USA and eastern Europe. It has previously been suggested on the basis of uplift modelling that this style of crustal behaviour occurs only in regions where the mobile lower-crustal layer is relatively thin. This study supports this conclusion on the basis of independent geothermal calculations, which indicate that such alternations between uplift and subsidence occur where the mobile lower-crustal layer is ≤∼7 km thick. An understanding of this phenomenon, in relation to the understanding of vertical crustal motions induced by surface processes (and thus by climate change) in general, therefore requires analysis of the properties and dynamics of the mobile lower-crustal layer; detailed analysis of fluvial sequences thus contributes unique information in this area.

Published

2014

39. Accounting for palaeoclimate and topography: A rigorous approach to correction of the British geothermal dataset

Author

Paul L. Younger and Rob Westaway

Subjects

geography, geography.geographical_feature_category, Pleistocene, Renewable Energy, Sustainability and the Environment, business.industry, Geothermal energy, Borehole, Magnitude (mathematics), Geology, Geotechnical Engineering and Engineering Geology, Latitude, Paleontology, Arctic, Ice sheet, business, Geothermal gradient

Abstract

Raw heat flow measurements typically require correction for both palaeoclimate and topography if temperatures are to be reliably extrapolated to depths greater than those where temperature is measured. Such corrections are thus an essential step in quantifying geothermal energy resources. However, although both types of correction were pioneered decades ago by British workers, they have been omitted or underplayed in subsequent assessments of the UK geothermal dataset. Furthermore, as most UK heat flow measurements to date have utilised shallow boreholes, the magnitudes of the required corrections (for both effects) are exacerbated. In addition, the location of Britain, at a range of latitude with a temperate climate at present but where arctic conditions prevailed during much of the Pleistocene, means that the palaeoclimate correction, for a borehole of a given depth, is particularly large. Outside regions of high relief relative to borehole depth, palaeoclimate corrections at sites in Britain are indeed larger in magnitude than topographic corrections, and for almost all boreholes are additive. The magnitude of the palaeoclimate correction depends on assumptions about palaeotemperature anomalies and their durations, but from the available evidence it can be assessed, for a very shallow borehole in an unglaciated part of southern Britain with rocks of thermal conductivity 3 W m−1 °C−1, as 27 mW m−2. Air temperatures during Pleistocene cold stages decreased northward, but in much of northern Britain the Earth's surface was not exposed to these low temperatures for part of the Late Pleistocene due to the insulating effect of cover by ice sheets; the detailed correction for each locality thus depends on the local histories of air temperature anomalies and of ice cover, and may therefore potentially be greater or less than is typical for southern England. The past failure to recognise the magnitude of palaeoclimate corrections at sites in Britain, and to incorporate them into studies of geothermics, has led to systematic underestimation of temperatures at depth and, thus, of the overall geothermal energy resource.

Published

2013

40. Two decades of numerical modelling to understand long-term fluvial archives: advances and future perspectives

Author

W. Viveen, Rob Westaway, Arnaud Temme, Jeroen M. Schoorl, R.T. van Balen, W. van Gorp, Tom J. Coulthard, Darrel Maddy, Alexander C. Whittaker, Jantiene Baartman, A. Veldkamp, J.G.C.M. van de Wiel, Joep E.A. Storms, Classical and Mediterranean Archaeology, Department of Natural Resources, UT-I-ITC-FORAGES, Faculty of Geo-Information Science and Earth Observation, Earth and Climate, and Amsterdam Global Change Institute

Subjects

Archeology, 010504 meteorology & atmospheric sciences, media_common.quotation_subject, Earth science, Fluvial, Context (language use), Equifinality, 010502 geochemistry & geophysics, Non-linearity, Ontwikkelingseconomie, 01 natural sciences, Intrinsic and extrinsic control, Numerical model, Paleontology, Development Economics, Fluvial stratigraphy, Function (engineering), Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, media_common, Global and Planetary Change, WIMEK, Signal shredding, Geology, Numerical models, Bodemfysica en Landbeheer, PE&RC, Term (time), System dynamics, Soil Physics and Land Management, Bodemgeografie en Landschap, Research strategies, ITC-ISI-JOURNAL-ARTICLE, Soil Geography and Landscape

Abstract

The development and application of numerical models to investigate fluvial sedimentary archives has increased during the last decades resulting in a sustained growth in the number of scientific publications with keywords, ‘fluvial models’, ‘fluvial process models’ and ‘fluvial numerical models’. In this context we compile and review the current contributions of numerical modelling to the understanding of fluvial archives. In particular, recent advances, current limitations, previous unexpected results and future perspectives are all discussed. Numerical modelling efforts have demonstrated that fluvial systems can display non-linear behaviour with often unexpected dynamics causing significant delay, amplification, attenuation or blurring of externally controlled signals in their simulated record. Numerical simulations have also demonstrated that fluvial records can be generated by intrinsic dynamics without any change in external controls. Many other model applications demonstrate that fluvial archives, specifically of large fluvial systems, can be convincingly simulated as a function of the interplay of (palaeo) landscape properties and extrinsic climate, base level and crustal controls. All discussed models can, after some calibration, produce believable matches with real world systems suggesting that equifinality - where a given end state can be reached through many different pathways starting from different initial conditions and physical assumptions - plays an important role in fluvial records and their modelling. The overall future challenge lies in the development of new methodologies for a more independent validation of system dynamics and research strategies that allow the separation of intrinsic and extrinsic record signals using combined fieldwork and modelling.

Published

2016

41. Induced Seismicity

Author

Rob Westaway

Subjects

chemistry.chemical_compound, Hydraulic fracturing, Mining engineering, chemistry, Shale gas, Borehole, Petroleum, Fluid injection, Induced seismicity, Geology

Abstract

The chapter will provide a snapshot of current knowledge regarding induced seismicity. The broad scope of this topic will be covered, although with emphasis on current issues affecting the United States and the United Kingdom and with focus on topics relating to unconventional petroleum development. In the United States. the principal current issue is the increasing occurrence of moderate-to-large induced earthquakes caused by borehole disposal of wastewater, much of it spent fracking fluid from shale gas development. In the United Kingdom, where borehole disposal of wastewater is illegal, the principal current issues are, first, the need to incorporate induced seismicity resulting from fracking for shale gas into an appropriate regulatory framework, to contribute to creating the conditions where shale gas might have a future. The second key issue concerns the implications of the combination of conditions prevailing in the United Kingdom, combining high differential stress and pervasively faulted rocks with faulting close to the optimum orientation for reactivation by injection of fracking fluid.

Published

2016

42. The use of fluvial archives in reconstructing landscape evolution: the value of sedimentary and morphostratigraphical evidence

Author

Rob Westaway and David R. Bridgland

Subjects

geography, Paleontology, geography.geographical_feature_category, Stream power law, River terraces, Bedrock, Fluvial, Geology, Sedimentary rock, Quaternary, Value (mathematics)

Abstract

Evidence-based interpretations of fluvial evolution, and especially of river-terrace formation, have advanced significantly in recent decades, with a notable contribution made by activities of the Fluvial Archives Group. Well-dated river-terrace sequences provide frameworks for the understanding of landscape evolution, since they record valley-floor levels that were higher in the past, attributable, from their patterns of occurrence, to regional uplift. The role of climate fluctuation during the Quaternary is also paramount, since this has been an important driver of the varied fluvial activity that has given rise to the staircases of terraces that characterise the temperate latitudes. This approach is contrasted with a more theoretical methodology for using rivers as recorders of landscape evolution, again with an emphasis on uplift, based on the concept of the formation of knickpoints at particular base levels and their migration upstream. Although different timescales can be explored by the two methods, the concept of headward-migrating knickpoints implies a mechanism for incision that is difficult to reconcile with the formation of the broadly parallel river terraces that are observed in many systems. Knickpoints can frequently be observed to coincide with gorge reaches, where river valleys are constricted as a result of resistant bedrock and/or the effects of localised active crustal deformation. This raises the possibility that knickpoints have generally formed in response to factors of local geology rather than migrating from downstream.

Published

2012

43. A numerical modelling technique that can account for alternations of uplift and subsidence revealed by Late Cenozoic fluvial sequences

Author

Rob Westaway

Subjects

Paleontology, Tectonic uplift, Aggradation, Lithosphere, Isostasy, Fluvial, Crust, Geophysics, Mantle (geology), Geology, Earth-Surface Processes, Thermal subsidence

Abstract

Alternations between fluvial incision and aggradation, in response to switches between uplift and subsidence and occurring over timescales of many hundreds of thousands of years, have been documented in many regions worldwide, contrasting markedly with the monotonic histories of uplift or subsidence evident elsewhere. It has been noted that this pattern of reversals in vertical crustal motion is only observed in regions where the mobile lower-crustal layer is thin, ≤ 6 km thick, suggesting a cause-and-effect connection with the physical properties of the underlying continental lithosphere. It is proposed that these reversals result from the interplay between the isostatic responses to erosional unloading by lower-crustal flow and by mantle lithosphere relaxation. Estimates of the characteristic timescale for relaxation of the continental mantle lithosphere range from several hundred thousand years in regions of ‘cold’ crust, with a thin mobile lower-crustal layer, to a few tens of thousands of years in regions of ‘hot’ crust, where the mobile lower-crustal layer is thicker. In regions of hot crust, relaxation of the mantle lithosphere requires a shorter characteristic timescale than flow within the lower crust. The complex interaction between these processes means that isostatic compensation of crustal thickening in regions of hot crust will typically involve surface uplift, the development of a lower-crustal ‘root’, and thinning of the mantle lithosphere. The observation of alternations between uplift and subsidence in long-timescale fluvial sequences and the proposed physical interpretation demonstrate the importance of fluvial records for providing unique, high-resolution control on deformation of the continental lithosphere and for constraining its layered rheology.

Published

2012

44. Chronology of the Lower and Middle Palaeolithic in NW Europe: developer-funded investigations at Dunbridge, Hampshire, southern England

Author

Philippa Bradley, Jean-Luc Schwenninger, Michael J. Grant, David R. Bridgland, Tom S. White, Peter Allen, David Peat, Rob Westaway, Phil Harding, and Rebecca Scott

Subjects

Team Role Inventories, Paleontology, Fluvial, Assemblage (archaeology), Geology, Context (language use), Quaternary, Archaeology, Optical dating, Deposition (geology), Chronology

Abstract

This paper reports important findings relating to the chronology of Palaeolithic occupation, artefact typology and Quaternary fluvial deposits from a geoarchaeological watching brief undertaken over 17 years at Kimbridge Farm Quarry, Dunbridge, Hampshire. Sections were recorded and sampled and 198 artefacts, principally hand axes, were collected, with the primary aim of enhancing understanding of the geological context of the richest Lower Palaeolithic assemblage from Hampshire. Digital terrain modelling was used to characterize the three-dimensional form of the fluvial geology. Two gravel terraces have been confirmed: an upper Belbin Formation, which contained most of the archaeological artefacts, and a lower Mottisfont Formation. Results of specific note included recovery of artefacts demonstrating elements of ‘proto-Levallois’ technology from within the Belbin Gravel deposition. Fully developed Levallois technology was present across both the Belbin Gravel and the Mottisfont Formation at Dunbridge, the latter having an otherwise relatively sparse Palaeolithic content. Previously published OSL dating, supplemented by new data, has been combined with uplift modelling to suggest dates of MIS 9b and MIS 8, respectively, for these two gravels. This fits well with evidence from other sites in England and the near Continent for the timing of the earliest Levallois at around MIS 9. The results from the Dunbridge watching brief have demonstrated that this response provides a relatively cost effective method by which important scientific data can be salvaged from commercial quarrying.

Published

2012

45. Cenozoic cooling and denudation in the North Pennines (northern England, UK) constrained by apatite fission-track analysis of cuttings from the Eastgate Borehole

Author

D.A.C. Manning, Rob Westaway, Paul F. Green, and Paul L. Younger

Subjects

Underplating, Denudation, Magmatism, Geochemistry, Paleontology, Geology, Crust, Fission track dating, Paleogene, Cenozoic, Geomorphology, Mantle plume

Abstract

The Cenozoic landscape development of Britain remains relatively poorly understood. On the one hand, ‘plumists’ have tried to explain the present-day topography as a consequence of effects of the Iceland mantle plume during the Palaeocene-Eocene British Tertiary Igneous Province (BTIP) magmatism, with little or no subsequent modification. On the other hand, abundant evidence exists from fluvial and marine terraces and superimposed karstic levels for significant vertical crustal motions during the Quaternary, which clearly has nothing to do with any mantle plume. To shed light on this issue, we present the first publication of data that constrain the Cenozoic thermal history of the North Pennine uplands of northern England, from apatite fission-track analysis of drill cuttings from the Eastgate Borehole in Weardale, in the western part of County Durham. Our results indicate ∼650 m of regional denudation since the latest Oligocene/Early Miocene, plus the ∼400 m of localized entrenchment that has created the modern Weardale valley. Before the latest Oligocene/Early Miocene, but following the BTIP magmatism, the crust in this region experienced significant cooling, mainly due to a decrease in the geothermal gradient from ∼55 to 61 °C km−1 to the present 38 °C km−1, along with ∼300 ± 200 m of denudation. Although significant BTIP magmatism occurred in northern England, it thus had only a limited net effect; the crust experienced dramatic heating, but cooled back to its original thermal state within, at most, a few tens of millions of years. We suggest that this rapid cooling effect resulted from westward flow of relatively cold material within the mobile lower-crustal layer, driven by the lateral pressure gradient induced by earlier heating effects and effects of surface processes. Whatever topography developed during the Palaeogene, as a direct result of these heating effects, underplating at the base of the crust, and the associated modest denudation, was presumably also short-lived; significant changes to the crustal thickness, and thus to the topography, can be envisaged as a consequence of subsequent lower-crustal flow.

Published

2012

46. First indications of high slip rates on active reverse faults NW of Damascus, Syria, from observations of deformed Quaternary sediments: Implications for the partitioning of crustal deformation in the Middle Eastern region

Author

Rob Westaway, Mohamad Daoud, David R. Bridgland, and Mohammad Abou Romieh

Subjects

geography, geography.geographical_feature_category, Pleistocene, Bedrock, Fold (geology), Slip (materials science), Fault (geology), African Plate, Geophysics, Echelon formation, Quaternary, Seismology, Geology, Earth-Surface Processes

Abstract

Recent research on rates of crustal shortening within the Palmyra Fold Belt (PFB) in Syria has drawn attention to the possibility that reverse faults near the city of Damascus, which adjoins the SW PFB, have significant slip rates. We infer that the Damascus Fault, directly adjacent to the city, has developed a throw of ~ 2500 m and report the discovery of the en echelon Bassimeh Fault, with a throw of ~ 1000 m, this fault being revealed by warping of the local bedrock and of a terrace, of inferred Late Pleistocene age, of the River Barada. We estimate that this set of faults became active circa 0.9 Ma, synchronous with changes to the pattern of faulting previously reported farther southwest in the northern Jordan Valley. Vertical slip rates on the Bassimeh and Damascus faults of ~ 1.1 and ~ 2.8 mm a− 1, respectively, are thus estimated. We also infer that large historical earthquakes, previously attributed to left-lateral faulting farther west on the Dead Sea Fault Zone (DSFZ), probably occurred on this set of reverse faults; these faults thus represent a significant hazard to the city of Damascus. Our observations indicate that as much as half of the northward motion of the Arabian plate, relative to the African plate, may be ‘absorbed’ by crustal shortening within the PFB, potentially explaining the low slip rate recently measured geodetically on the northern DSFZ in western Syria.

Published

2012

47. Reply to comments by F.S. Busschers, K.M. Cohen, J. Vandenberghe, R.T. Van Balen, C. Kasse, J. Wallinga, and H.J.T Weerts on ‘Causes, consequences and chronology of large-magnitude palaeoflows in Middle and Late Pleistocene river systems of northwest Euro

Author

David R. Bridgland and Rob Westaway

Subjects

Pleistocene, Geography, Planning and Development, Magnitude (astronomy), Earth and Planetary Sciences (miscellaneous), Archaeology, Geology, Northwest europe, Earth-Surface Processes, Chronology

Published

2011

48. Reply to comments by S. Toucanne, S. Zaragosi, F. Eynaud, J. F. Bourillet, G. Lericolais and P. L. Gibbard on ‘Causes, consequences and chronology of large-magnitude palaeoflows in Middle and Late Pleistocene river systems of northwest Europe’, by Rob Wes

Author

David R. Bridgland and Rob Westaway

Subjects

Paleontology, Pleistocene, Geography, Planning and Development, Magnitude (astronomy), Earth and Planetary Sciences (miscellaneous), Geology, Northwest europe, Earth-Surface Processes, Chronology

Published

2011

49. A re-evaluation of the timing of the earliest reported human occupation of Britain: the age of the sediments at Happisburgh, eastern England

Author

Rob Westaway

Subjects

Marine isotope stage, Paleontology, Early Pleistocene, Pleistocene, Lithology, Geology, Sedimentary rock, Ecological succession, Biostratigraphy, Archaeology, Magnetostratigraphy

Abstract

Lower Palaeolithic artefacts have been reported at Happisburgh, north Norfolk, in sediments that have been assigned to the late Early Pleistocene, in either marine isotope stage (MIS) 25 or 21, using magnetostratigraphy, biostratigraphy and clast lithology. However, the proposal that these sediments were deposited by the ancestral River Thames is inconsistent both with the established late Early Pleistocene palaeogeography of the region and with the dispositions of the contemporaneous Thames terraces. The Happisburgh deposits were evidently emplaced by a local river, which reworked older sediments that from their lithology had been derived largely from the Bytham River rather than the Thames catchment. Nonetheless, the potential significance of this sedimentary succession for early human dispersal and behaviour requires a conservative assessment of its youngest possible age. Although its basal part is clearly Early Pleistocene, there is nothing to preclude an early Middle Pleistocene age for the overlying sediments that have yielded the artefacts and the mammalian biostratigraphic evidence. It is indeed arguable that these sediments date from the cooling transition at the end of MIS 15c, and are thus younger than the artefact-bearing succession at Pakefield. Pending the availability of additional dating evidence, future discussion of the Happisburgh site should be qualified with respect to any claim for an Early Pleistocene age for the human occupation indicated.

Published

2011

50. Methods for determination of the age of Pleistocene tephra, derived from eruption of Toba, in central India

Author

Sushama Deo, Sheila Mishra, Rob Westaway, and David R. Bridgland

Subjects

Early Pleistocene, Pleistocene, Rhyolite, Geochemistry, General Earth and Planetary Sciences, Apparent age, Tephra, Geomorphology, Geology, Supervolcano

Abstract

Tephra, emplaced as a result of Pleistocene eruption of the Indonesian ‘supervolcano’ Toba, occurs at many localities in India. However, the ages of these deposits have hitherto been contentious; some workers have argued that these deposits mark the most recent eruption (eruption A, ca 75 ka), although at some sites they are stratigraphically associated with Acheulian (Lower Palaeolithic) artefacts. Careful examination of the geochemical composition of the tephras, which are composed predominantly of shards of rhyolitic glass, indicates that discrimination between the products of eruption A and eruption D (ca 790 ka) of Toba is difficult. Nonetheless, this comparison favours eruption D as the source of the tephra deposits at some sites in India, supporting the long-held view that the Lower Palaeolithic of India spans the late Early Pleistocene. In principle, these tephra deposits should be dateable using the K–Ar system; however, previous experience indicates contamination by a small proportion of ancient material, resulting in apparent ages that exceed the true ages of the tephras. We have established the optimum size-fraction in which the material from Toba is concentrated, 53–61 μm, and have considered possible origins for the observed contamination. We also demonstrate that Ar–Ar analysis of four out of five of our samples has yielded material with an apparent age similar to that expected for eruption D. These numerical ages, of 809 ± 51, 714 ± 62, 797 ± 45 and 827 ± 39 ka for the tephras at Morgaon, Bori, Gandhigram and Simbhora, provide a weighted mean age for this eruption of 799 ± 24 ka (plus-or-minus two standard deviations). However, these numerical ages are each derived from no more than 10–20% of the argon release in each sample, which is not ideal. Nonetheless, our results demonstrate that it is feasible, in principle, to date this difficult material using the Ar–Ar technique; future follow-up studies will therefore be able to refine our preparation and analysis procedures to better optimize the dating.

Published

2011