engineering: fully funded tata steel phd scholarship: developing technologies for whole building...
Swansea university

engineering: fully funded tata steel phd scholarship: developing technologies for whole building...

United Kingdom 31 May 2021

ABOUT THE INSTITUTION

A research-led university, Swansea University has been making a difference since 1920. The University community thrives on exploration and discovery, and offers the right balance of excellent teach

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OPPORTUNITY DETAILS

State University
Area
Host Country
Deadline
31 May 2021
Study level
Opportunity type
PhD
Specialities
Eligible Countries
This opportunity is destined for all countries
Eligible Region
All Regions

This scholarship is funded by TATA Steel's Industrial iCASE Award.

Subject areas: Mathematics, Physics or Engineering

Project description: 

Fire safety is a critical aspect of building design and all building materials and products are subject to tightly controlled standards. In common with all other reputable manufacturers, Tata Steel’s construction products are all supplied with a Euroclass classification that confirms their performance in reaction to fire tests. Data from these small-scale tests are used in product fire performance modelling but it is widely acknowledged that this approach has significant limitations when trying to assess the performance of a complete system, such as a whole building. Therefore, this research aims to investigate, via computer modelling, more realistic buildings and fire scenarios in order to gain a better understanding of how buildings perform during fire.

The successful PhD candidate will work closely with Tata Steel to investigate and develop techniques for whole building fire modelling. Since this is a broad and challenging area the successful candidate will have the opportunity to help drive the research into the most appropriate areas. Challenges include: coupling fire modelling techniques with structural modelling techniques, modelling fire propagation and the thermomechanical behaviour of structural and non-structural components, such as beams, columns, purlins and sandwich panels, and reducing the computational cost of running simulations to make these techniques practical for industry. Ultimately, the project will seek to extend current, in-house, product/system modelling capability to whole building fire performance modelling by combining CFD and FEA methodologies and to generate a modelling method/framework that can be adopted to create fully coupled CFD-FEA models for a range of building types.

The successful candidate will benefit from working closely with Tata Steel and the existing cohort of PhD students who belong to the well-established Building Envelope EngD theme at Swansea University. This will give the candidate excellent peer support and the advantage of working at the forefront of innovative buildings development. The candidate will also benefit from working with academics from the Zienkiewicz Centre for Computational Engineering who, for decades, have been pioneers in the development of numerical techniques such as the finite element method for computational fluid dynamics.

Project Supervisors: Dr Sean Walton, Dr Jennifer Thompson and Professor Oubay Hassan


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