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Overview

The PhD student will test these two hypotheses:

• There is a strong effect of the vehicle shape on the wake flow and aerodynamic drag,
• There is a direct link between the topology of wake flow and the dispersion of pollutants.

To test these two hypotheses, the PhD student will:

• Investigate the effects of different parameters on the wake flow such as yaw angle, vehicle shape (realistic shapes), inflow turbulence, and ground roughness,
• Compare results of Ahmed bodies (simplified) and DrivAer models (realistic),
• Correlate experiments and simulations to come up with the best methodology.

The bi-stability wake flow phenomena of DrivAer models are yet to be fully understood in the context of pollutant dispersion. Prior studies focused more on drag reduction rather than pollutant dispersion. This PhD study aims to fill this gap by addressing public health and environmental issues.

What will you Learn

The main objectives of this project are:

• Characterisation of the flow developing in the wake of an Ahmed body (reference case). Both steady and unsteady studies will be conducted for different experimental conditions (yaw angles of the model), natures of the incident flow turbulence, and roughness of the ground). The results can be compared to available data in the literature (especially in the framework of the collaboration with Concordia University),
• Characterisation of the flow developing in the wake of a DrivAer model. Both steady and unsteady studies will be conducted for experimental conditions with different yaw angles, natures of the incident flow, and roughness of the ground. The results will be compared with those available in the literature,
• Study of the effect of a rolling road (relative movement of the ground) on the wake. To achieve this goal, measurements will be carried out at Cranfield using experimental conditions studied with a fixed floor at ESTACA. The influence of the car model, ground roughness, incident turbulence and yaw angle will be discussed,
• Characterisation of steady and unsteady flows (determination of the characteristic time and length scales of the flow). For this, we will rely on preliminary results obtained by Edwin Duran-Garcia which will be extended to the proposed PhD project. Additional developments may be made depending on the progress of the work,
• Numerical simulations will be carried out at Cranfield in the continuity of what is done by considering the new experimental developments. For these CFD studies, numerical tools and super computers at Cranfield and Loughborough will be available,
• On-road experimental data will be provided by industry (Emissions Analytics), which will enable us to bridge the gap between wind tunnel and actual road conditions.

Unique Selling Points

The student will attend mandatory courses (how to publish?; ethics in research integrity; open access). The student will participate in 3-minute PhD presentations and poster competitions. The student will present research findings at international conferences to disseminate novel findings to the international scientific community. The student will attend training on scientific writing as the research findings will be published in high-impact journals. The student will attend relevant workshops to develop both technical and transferrable skills.

The student will have training for laser Doppler anemometry (LDA) and computational fluid dynamics (CFD). The student will have placements at industry (Emissions Analytics) and academia (Loughborough). As it is a double-PhD study, the student will get familiar with both British and French academic systems. The student will attend relevant courses (introduction to Python; statistical analysis) to further develop academic knowledge and technical skillset. The student will receive hands on experience on experimental and computational techniques through advanced training from senior colleagues. The student will attend relevant personal development courses. The student will be part of the doctoral community and present the research findings at its annual conference.

Location of Study

Based at the UK Defence Academy at Shrivenham in Oxfordshire, CDS is the academic provider to the UK Ministry of Defence for postgraduate education at the Defence Academy, training in engineering, science, acquisition, management and leadership.