Dr. Sim M. Reaney, Durham University, UK
Catchment Hydrology, Diffuse Pollution and Environmental Modelling
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  • Overview
    • Short CV
  • Research Interests
    • Environmental Modelling
    • Connectivity
    • Diffuse Pollution
    • Climate Change
    • Catchment Hydrological Dynamics
    • Interdisciplinary
  • Publications
    • Conference Presentations
    • Reports
    • Journal Papers
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Funded PhD Opportunity: Modelling and Mapping Flood Hazards in Data Poor Environments: the case of Nepal.

By Sim Reaney On 21/11/2018 · Add Comment

A 3.5-year PhD research project in the Department of Geography and the Institute for Hazard Risk and Resilience at Durham University. Supervised by Dr. Sim M. Reaney, Prof. Richard Hardy and Dr Isabella Bovolo

Background Flood hazards in Nepal have resulted in significant regional impacts in recent years. Nepalese floods in August [...]

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PhD and M Phil Projects for 2019

On 31/10/2018 By Sim Reaney

There is a fully funded PhD project with me on Modelling and Mapping Flood Hazards in Data Poor Environments: the case of Nepal. this project will research extensive flood water source mapping across Nepal and do detailed flood hazard modelling with hydraulic flood modelling tools. Deadline for application is  20th December 2018 (5pm GMT): Full [...]

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The Role of Attenuation and Land Management in Small Catchments to Remove Sediment and Phosphorus: A Modelling Study of Mitigation Options and Impacts

On 15/09/2018 By Sim Reaney

Adams, R. Quinn, P., Barber, N. and Reaney S. 2018: The Role of Attenuation and Land Management in Small Catchments to Remove Sediment and Phosphorus: A Modelling Study of Mitigation Options and Impacts; Water  10(9), 1227; https://doi.org/10.3390/w10091227

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A catchment-scale model to predict spatial and temporal burden of E. coli on pasture from grazing livestock

On 15/09/2018 By Sim Reaney

Oliver D. M., .Bartie P. J., Heathwaite A. L., Reaney S. M., Parnell J. A. Q. Quilliam R. S. 2017: A catchment-scale model to predict spatial and temporal burden of E. coli on pasture from grazing livestock; Science of The Total Environment, 616–617, pp 678-687

The full text is available here under open access

Abstract

Effective [...]

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Reducing Flood Risk in Java

On 06/07/2018 By Sim Reaney

Sim Reaney and Simon Mathias, Durham University

The risk pose by flooding in Indonesia is significant, with many communities experiencing multiple flood events each year, leading to multiple impacts including physical damage, economic loss, displacement and mental health issues. Within the last ten years, there have been 84 significant flood events in Indonesia that have [...]

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Mapping flood extent in Nepal for the 2017 Monsoon

On 02/05/2018 By Sim Reaney

Rainfall generated flooding is a significant annual problem in the Himalaya, especially in the latter stages of monsoon season. To reduce the impacts on communities we normally apply hydrological and hydraulic simulation models and analysis to test a range of mitigation scenarios. For these tools to work, we need detailed datasets on the flood flows, [...]

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Predicting diffuse microbial pollution risk across catchments: The performance of SCIMAP and recommendations for future development

On 23/08/2017 By Sim Reaney

Porter K. D.H.. Reaney S. M.. Quilliam R. S., Burgess C. and Oliver D. M. 2017: Predicting diffuse microbial pollution risk across catchments: The performance of SCIMAP and recommendations for future development;  Science of The Total Environment 609, 456-465

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Dr. Sim M. Reaney, Durham University, UK

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  • Funded PhD Opportunity: Modelling and Mapping Flood Hazards in Data Poor Environments: the case of Nepal.
    A 3.5-year PhD research project in the Department of Geography and the […]

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© 2014 Dr. Sim M. Reaney, Durham University, UK