Preprints

Filtering by Subject: Engineering

Modelling cross-shore shoreline change on multiple timescales and their interactions

Rob Schepper, Rafael Almar, Erwin W. J. Bergsma, et al.

Published: 2021-01-13
Subjects: Engineering

Understanding and predicting shoreline changes is paramount to coastal managers to anticipate potential threats. These shoreline changes are often driven by complex processes at multiple timescales. In this paper, a new approach to model wave-driven, cross-shore shoreline change incorporating multiple timescales is introduced. As a base we use the equilibrium shoreline prediction model ShoreFor [...]

Determination of vulnerability areas from the simulated deposition of atmospheric pollutants using LOTOS-EUROS chemical transport model in North-West South-America

Andres Yarce Botero, Santiago Lopez-Restrepo, Arjo Segers, et al.

Published: 2021-01-06
Subjects: Applied Mathematics, Bioresource and Agricultural Engineering, Civil and Environmental Engineering, Computer Sciences, Engineering, Physical Sciences and Mathematics, Planetary Sciences

This work presents the implementation of the LOTOS-EUROS regional atmospheric Chemical Transport Model (CTM) on Northwestern South America. The impact of land use and orography update in the model was analyzed to identify potential vulnerable natural areas by quantifying atmospheric deposition pollutants. CTMs allow simulating the physical dynamics of trace gasses and aerosols, including [...]

2-D P-SV and SH spectral element modelling of seismic wave propagation in non-linear media with pore-pressure effects

Elif Oral, Celine Gelis, Luis Fabian Bonilla

Published: 2021-01-06
Subjects: Earth Sciences, Engineering, Geophysics and Seismology, Geotechnical Engineering

It has long been recognized that the effects of superficial geological layers, or site effects, can play a major role on the seismic ground motion at the free surface. In this study, we compute wave propagation in a 2-D asymmetrical basin considering both soil non-linearity and pore- pressure effects. Equations of elastodynamics of wave propagation are solved using the spectral element method [...]

Spectral element modelling of seismic wave propagation in visco-elastoplastic media including excess-pore pressure development

Elif Oral, Celine Gelis, Luis Fabian Bonilla

Published: 2021-01-06
Subjects: Earth Sciences, Engineering, Geophysics and Seismology, Geotechnical Engineering

Numerical modelling of seismic wave propagation, considering soil nonlinearity, has become a major topic in seismic hazard studies when strong shaking is involved under particular soil conditions. Indeed, when strong ground motion propagates in saturated soils, pore pressure is another important parameter to take into account when successive phases of contractive and dilatant soil behaviour are [...]

Climate change induced effects or maldevelopment: small islands and conflicting attribution of root causes

C. Gabriel David, Arne Hennig, Beate M. W. Ratter, et al.

Published: 2020-12-21
Subjects: Engineering, Social and Behavioral Sciences

Adapting to sea level rise, climate change, and associated effects is especially challenging in sensitive small-island environments where false adaptation can lead to adverse impacts on natural and societal dynamics. Framing and interest play a decisive role for the successful implementation of any adaptation measures. An interdisciplinary perspective on the interaction of natural dynamics, [...]

Evidence-based conservation in a changing world: lessons from waterbird individual-based models

Sally Brown, Richard A Stillman

Published: 2020-12-16
Subjects: Engineering, Physical Sciences and Mathematics, Social and Behavioral Sciences

Drivers of environmental change are causing novel combinations of pressures on ecological systems. Prediction in ecology often uses understanding of past conditions to make predictions to the future, but such an approach can breakdown when future conditions have not previously been encountered. Individual-based models (IBMs) consider ecological systems as arising from the adaptive behaviour and [...]

Anatomy of Strike Slip Fault Tsunami-genesis

Ahmed Elbanna, Mohamed Abdelmeguid, Xiao Ma, et al.

Published: 2020-12-13
Subjects: Earth Sciences, Engineering, Fluid Dynamics, Geophysics and Seismology, Physical Sciences and Mathematics, Physics

Tsunami generation from earthquake induced seafloor deformations has long been recognized as a major hazard to coastal areas. Strike-slip faulting has generally been believed as insufficient for triggering large tsunamis, except through the generation of submarine landslides. Herein, we demonstrate that ground motions due to strike-slip earthquakes can contribute to the emergence of large [...]

High-resolution downscaled CMIP5 projections dataset of essential surface climate variables over Europe coherent with ERA5-Land reanalyses for climate change impact assessments

Thomas NOEL, Harilaos Loukos, Dimitri Defrance, et al.

Published: 2020-11-27
Subjects: Engineering, Life Sciences, Physical Sciences and Mathematics

A high-resolution climate projections dataset is obtained by statistically downscaling climate projections from the CMIP5 experiment using the ERA5-Land reanalyses from the Copernicus Climate Change service. The dataset is over Europe, has a spatial resolution of 0.10° x 0.10°, comprises 21 climate models and includes 5 surface daily variables: air temperature (mean, minimum, and maximum), [...]

High-resolution downscaled CMIP5 projections dataset of essential surface climate variables over the globe coherent with ERA5 reanalyses for climate change impact assessments

Thomas NOEL, Harilaos Loukos, Dimitri Defrance, et al.

Published: 2020-11-27
Subjects: Engineering, Life Sciences, Physical Sciences and Mathematics

A high-resolution climate projections dataset is obtained by statistically downscaling climate projections from the CMIP5 experiment using the ERA5 reanalyses from the Copernicus Climate Change service. The dataset is global has a spatial resolution of 0.25°x 0.25°, comprises 21 climate models and includes 5 surface daily variables: air temperature (mean, minimum, and maximum), precipitation, and [...]

The development of intermittent multiphase fluid flow pathways through a porous rock

Catherine Spurin, Maja Rücker, Tom Bultreys, et al.

Published: 2020-11-18
Subjects: Engineering, Physical Sciences and Mathematics

Intermittent fluid flow has recently been identified as an important transport mode for subsurface multiphase flow systems such as CO2 storage and natural gas production. However, due to experimental limitations, it has not been possible to identify why intermittency occurs at subsurface conditions and what the implications are for upscaled flow properties such as relative permeability. We [...]

Improving mechanical behaviour of collapsible soils by grouting active clay nanoparticles

ALI SEIPHOORI, Mostafa Zamanian

Published: 2020-10-27
Subjects: Engineering, Physical Sciences and Mathematics

The primary geotechnical concern of collapsible soils such as loess is their hydromechanical instability. During (re)wetting, metastable aggregates disintegrate leading soil to collapse under the applied load or self-weight. In situ chemical stabilisation, such as grouting, is a favoured option to improve the mechanical behaviour of soils; however, the low permeability of loess limits the [...]

Forecasting landslides by taking their temperature: Combining mathematical and experimental modeling with field data on the case of the El Forn landslide (Andorra)

Carolina Seguí, Manolis Veveakis

Published: 2020-10-25
Subjects: Engineering

In this study we are suggesting a temperature-based modeling approach for deep-seated landslides, validated through combined field monitoring and experimental testing. The Silurian shales of the shear band of El Forn landslide (Andorra) have been characterized through thermal and rate controlled triaxial tests, thereby calibrating a mathematical model that is used to monitor the behavior of [...]

An Urban Planning Sustainability Framework: Systems Approach to Blue Green Urban Design

Pepe Puchol-Salort, Maarten Van Reeuwijk, Ana Mijic, et al.

Published: 2020-10-23
Subjects: Engineering

The climate emergency and population growth are challenging water security and sustainable urban design in cities worldwide. Sustainable urban development is crucial to minimise pressures on the natural environment and on existing urban infrastructure systems, including water, energy, and land. These pressures are particularly evident in London, which is considered highly vulnerable to water [...]

Development of new Index based supervised algorithm for separation of Built-Up and River Sand pixels from Landsat7 imagery : Comparison of performance with SVM

Amritendu Mukherjee, Parthasarathy Ramachandran

Published: 2020-10-22
Subjects: Computational Engineering, Engineering, Environmental Engineering

While classifying “built-up” pixels from satel- lite imagery, both machine learning & index based algo- rithms often misclassify “river sand” pixels as “built-up” ones due to the similarity in their spectral profiles. With the help of the spectral reflectance information in BLUE & GREEN bands of Landsat satellite imagery, this study has introduced a new index BRSSI (Built-Up & River Sand [...]

Tuning sedimentation through surface charge and particle shape

ALI SEIPHOORI, Andrew Gunn, Sébastien Kosgodagan Acharige, et al.

Published: 2020-10-22
Subjects: Engineering, Physical Sciences and Mathematics

Mud forms the foundation of many coastal and tidal environments. Clay suspensions carried downstream from rivers encounter saline waters, which encourages aggregation and sedimentation by reducing electrostatic repulsion among particles. We perform experiments to examine the effects of surface charge on both the rate and style of sedimentation, using kaolinite particles as a model mud suspension [...]

search

You can search by:

  • Title
  • Keywords
  • Author Name
  • Author Affiliation