Jan HofmanJan Hofman
1 year ago
Water quality and hydrological modelling University of Bath in United Kingdom
Degree Level
PhD
Field of study
Environmental Science
Funding
NERC Red Alert Centre for Doctoral Training
Deadline
Expired
Country
United Kingdom
University
University of Bath
How do Indian students apply for this?
Sign in for free to reveal details, requirements, and source links.
Where to contact
Official Email
No info
Keywords
Environmental Science
Chemical Engineering
Hydrology
Civil Engineering
Water Quality
Water Resource Management
Nitrogen Management
Phosphorus
Hydrological Modeling
Emerging Contaminants
Universities Of Sheffield And Bath
Rivers
About this position
Check our latest PhD position on modelling of water quality in small rivers:
https://lnkd.in/etrPtH8x
Rivers are very dynamic systems. Run-off, sewer overflows and wastewater effluents have large water quality impacts. In this project you will develop a model that can simulate water quality dynamics for nitrogen (N), phosphorus (P) and organic micropollutants in high temporal and spatial resolution for the Cam and Wellow catchment area near the city of Bath, UK. The model will provide insights in biochemical processes in the river that influence the pollutant loads and concentrations in the river water.
Industrial Partner:
Wessex Water are the industrial partner on this project.
Candidate Requirements:
Degree in Chemical, Civil or Environmental Engineering, Experience with hydrological modelling in MIKE or HEC-RAS. Good maths and statistics skills, Willing to take up significant fieldwork.
Applicants should hold, or expect to receive, a First Class or good Upper Second-Class UK Honours degree (or the equivalent) in a relevant subject. A master’s level qualification would also be advantageous. Non-UK applicants must meet the programme’s English language requirement prior to a formal offer being made.
This project is part of the NERC Red Alert Centre for Doctoral Training. Click on this link to find more positions: https://lnkd.in/e4Wkgz3g
Water Innovation and Research Centre , Centre for Resilience in Environment, Water and Waste (CREWW) , RENEW Centre for Regenerative design and Engineering for a NEt positive World
https://lnkd.in/etrPtH8x
Rivers are very dynamic systems. Run-off, sewer overflows and wastewater effluents have large water quality impacts. In this project you will develop a model that can simulate water quality dynamics for nitrogen (N), phosphorus (P) and organic micropollutants in high temporal and spatial resolution for the Cam and Wellow catchment area near the city of Bath, UK. The model will provide insights in biochemical processes in the river that influence the pollutant loads and concentrations in the river water.
Industrial Partner:
Wessex Water are the industrial partner on this project.
Candidate Requirements:
Degree in Chemical, Civil or Environmental Engineering, Experience with hydrological modelling in MIKE or HEC-RAS. Good maths and statistics skills, Willing to take up significant fieldwork.
Applicants should hold, or expect to receive, a First Class or good Upper Second-Class UK Honours degree (or the equivalent) in a relevant subject. A master’s level qualification would also be advantageous. Non-UK applicants must meet the programme’s English language requirement prior to a formal offer being made.
This project is part of the NERC Red Alert Centre for Doctoral Training. Click on this link to find more positions: https://lnkd.in/e4Wkgz3g
Water Innovation and Research Centre , Centre for Resilience in Environment, Water and Waste (CREWW) , RENEW Centre for Regenerative design and Engineering for a NEt positive World
Funding details
NERC Red Alert Centre for Doctoral Training
How to apply
Check the link provided in the text
Ask ApplyKite AI
Start chatting
Can you summarize this position?
What qualifications are required for this position?
How should I prepare my application?
Professors
How do Indian students apply for this?
Sign in for free to reveal details, requirements, and source links.
High-fidelity water quality and hydrological modelling of emerging contaminants in rivers.