<html><head><meta http-equiv="Content-Type" content="text/html; charset=UTF-8" /></head><body style='font-size: 10pt; font-family: Verdana,Geneva,sans-serif'>
<p><strong>UKFN weekly round-up 08/01/21</strong></p>
<p>HAPPY NEW YEAR!</p>
<p><br />If you would like to circulate a brief message to the UKFN mailing list, please send an appropriately formatted item to <a href="mailto:info@fluids.ac.uk">info@fluids.ac.uk</a> by<strong><span> </span>Friday noon<span> </span></strong>of that week. <span>Messages are repeated according to</span><span> </span><a href="https://fluids.ac.uk/files/Newsletter_repeat_policy_200811.1597143124.pdf">these guidelines</a><span>. <br /><br /></span></p>
<p><strong>A. UKFN MESSAGES</strong></p>
<p>No new messages. </p>
<p><span></span><strong style="font-size: 10pt;">B. MEMBER MESSAGES<br /></strong></p>
<p><strong>SURVEY:</strong></p>
<p><strong>*Summarising the value of Fluid Dynamics to the UK economy and society (for both academics and industry staff) – deadline end of January 2021*<br /><br /></strong>In order give a more accurate response to government, funding agencies and investors on the current and future impact of the fluids sectors in the UK the Leeds Institute for Fluid Dynamics (LIFD) would be grateful for your responses to this short survey. With Brexit, Covid-19 and a new industry strategy due shortly it is vital we can present compelling evidence of the growth, exports and investment of industry and research foci and industrial engagement of the research community.  Responses are welcome from those working with fluids in industry and academia at any level.   Academic or industrial orientated questions are determined by which sector you identify with, within the survey.  No organisational or individual identifiable info is requested. The outputs will be published mid 2021 with the first full assessment of the size of the fluids industry in the UK and made available to all. The survey should take around 20 minutes to complete.</p>
<p>Survey: <a href="https://bit.ly/35eN3uM">https://bit.ly/35eN3uM</a> </p>
<p><strong>EVENTS:</strong>  <br /><br /></p>
<div><strong>From:<span> </span></strong>Dan Curtis, Swansea University, 7/1/21<strong><br />Subject:<span> </span></strong>British Society of Rheology Mid-Winter Meeting, <span>theme of the meeting is "Recent advances in non-conventional rheometry”, accepted abstracts encompass new approaches for measuring and controlling rheological properties of materials with relevance to a wide range of applications including manufacturing, healthcare, and polymer processing</span><strong><br /></strong></div>
<div><strong>Event date:<span> </span></strong>18-19/1/21 (Deadline for registration 12pm (GMT) 11/1/21)</div>
<div><strong>Details: </strong><a href="https://bit.ly/35lfp6p">https://bit.ly/35lfp6p</a> </div>
<p><strong>SIGS:</strong></p>
<div><span><strong>From: </strong>George Papadakis, Imperial College London, 5/1/21</span></div>
<div><span><strong>SIG: </strong>Flow Instability </span></div>
<div> </div>
<div>On 15th January, Matthew Juniper will run a 1 day course via Zoom on adjoint methods in Thermoacoustic Instability. It is aimed at new PhD students and requires Matlab. If you would like to attend, please email Matthew Juniper directly (<a href="mailto:mpj1001@cam.ac.uk">mpj1001@cam.ac.uk</a>). The course will cover:<br /><br />1. Introduction<br /> - the physical mechanisms involved in thermoacoustic instability<br /> - why thermoacoustic instability is so sensitive to parameters<br /> - motivation for using adjoints in thermoacoustics<br />2. Governing equations of a model thermoacoustic system<br /> - governing equations, from first principles<br /> - 1D model of a Rijke tube<br /> - travelling wave method<br /> - coding the travelling wave method<br /> - solving the nonlinear eigenvalue problem<br />3. Matlab exercises on the travelling wave method<br />4. Finite Difference and Finite Element methods for solving thermoacoustic problems<br />5. Using adjoints to calculate eigenvalue drift for linear and nonlinear eigenvalue problems.<br />6. Matlab tutorial on adjoints in thermoacoustic eigenvalue problems<br />7. Important technical points about using adjoints<br />8. Gradient-based optimization with adjoints</div>
<div> </div>
<p><strong>JOBS:</strong>  </p>
<div dir="ltr">
<div><strong><span>From:</span><span><span> </span></span></strong>Sebastian Timme, University of Liverpool, 8/1/21<strong><span><br /><strong><span>Subject:</span></strong><span> </span></span></strong>PhD Studentship<strong><span><br /><strong><span>Topic:</span></strong><span> </span></span></strong>Advancing Net Zero Geo-Engine Technology for Future Energy Resource Extraction<strong><span><br /><strong><span>Details:</span></strong> </span></strong><a href="https://tinyurl.com/y2xn8fd7">https://tinyurl.com/y2xn8fd7</a><strong><span><br /><strong><span>Closing date:</span></strong><span> </span></span></strong>15/1/21</div>
<div> </div>
<div><strong>From:<span> </span></strong>Nilanjan Chakraborty, Newcastle University, 8/1/21</div>
<div>
<div><strong>Subject: </strong>Postdoctoral research associate position for 3 years<span><br /><strong>Topic: </strong>CFD: Direct Numerical Simulations of Premixed Flame-Wall Interaction in Turbulent Boundary Layers</span><strong><br />Details: </strong><a href="https://bit.ly/3s5AlZ3">https://bit.ly/3s5AlZ3</a> </div>
<div><span><strong><strong>Closing date:</strong></strong> 5/2/21</span></div>
<div> </div>
</div>
<div><strong>From:<span> </span></strong>Chris MacMinn,<strong><span> </span></strong>University of Oxford, 5/1/21<strong><br />Subject: </strong><span>Associate Professorship of Engineering Science </span><span><br /><strong>Topic: </strong>Civil Engineering - Fluid Mechanics</span><strong><br />Details: </strong><a href="https://bit.ly/2JS0aKU">https://bit.ly/2JS0aKU</a><strong> </strong><span style="color: #000000; font-size: small;"><span></span></span></div>
<div><span><strong><strong>Closing date:</strong></strong><strong> </strong>25/1/21</span></div>
</div>
<div dir="ltr"> </div>
<div>
<div><strong>From:<span> </span></strong><span>Zhihua Xie, Cardiff University</span><span>, 4/1/21</span><strong><br />Subject: </strong><span>Research Associate in Numerical Simulation of Wave-Structure Interaction</span><span><br /><strong>Topic:  </strong>Computational fluid dynamics of water waves and their impact with fixed and moving structures</span><strong><br />Details: </strong><span style="color: #000000; font-size: small;"><span><a href="https://bit.ly/2JGBkxk">https://bit.ly/2JGBkxk</a></span></span></div>
<div><span><strong><strong>Closing date:</strong></strong><strong> </strong>4</span><span>/2/21</span></div>
<p style="font-weight: 400;"><strong>From: </strong>Yifan Li, Northumbria University, 4/1/21<br /><strong>Subject:</strong><span> </span><a href="https://www.findaphd.com/phds/project/hybrid-soft-material-printing-for-advanced-healthcare-sensors-actuators-advert-reference-rdf21-ee-mce-liyifan/?p127468">PhD studentship (International + Home)</a><span> </span>+ other CDT opportunities (mainly for UK candidates)<strong><br /><strong>Topics: </strong></strong>Lab on Chip, Droplet Microfluidics, Soft Material printing, Renewable Energy (CDT)<strong><br /><strong>Details: </strong></strong>Please email: <a href="mailto:yifan.li@northumbria.ac.uk">yifan.li@northumbria.ac.uk</a><strong><a href="mailto:yifan.li@northumbria.ac.uk"><br /></a></strong><strong>Closing date: </strong>29/1/21</p>
<p style="font-weight: 400;"><strong>From:</strong><strong> </strong>David Emerson, UKRI Science & Technology Facilities Council, 22/12/20<br /><strong>Subject: </strong>Computational Scientist at Daresbury Laboratory, Warrington, UK<br /><strong>Topic:</strong> A 3-year position for a scientist to join the computational engineering group in the Scientific Computing Department at STFC's national laboratory in Warrington. The job offers multiple opportunities with the candidate specialising in Computational Fluid Dynamics, Structural Mechanics or coupled modelling, ideally with a significant interest in software development and design, especially for High-Performance Computing platforms. <br /><strong>Details:</strong> <a href="https://bit.ly/3pfyr5J">https://bit.ly/3pfyr5J<br /></a><strong>Closing date:</strong><strong> </strong>31/1/21</p>
</div>
<div><strong>From:</strong> James Sprittles, University of Warwick, 18/12/20</div>
<div><strong>Subject:</strong> Fully-funded PhD in Mathematics Institute<br /><strong>Topic:</strong><strong> </strong>A Mathematical Modelling Framework for 3D Printing <br /><strong>Details: </strong><a href="http://bit.ly/2WpFEnB">http://bit.ly/2WpFEnB</a></div>
<div><strong>Closing date:</strong><strong> </strong>First come, first served.</div>
<p style="font-weight: 400;"><strong>From:<span><strong> </strong></span></strong>Richard Loveday, University of Nottingham, 15/12/20<strong><strong><br />Subject:<span> </span></strong></strong>CFD Research Associate/Fellow<strong><strong><span> </span></strong><br /><strong>Topic:<span> </span></strong></strong>Computational fluid dynamics (CFD) and far-field noise prediction methods to investigate novel design concepts for noise control<strong><strong><br />Details:</strong></strong><a href="https://bit.ly/2LEkcZH">https://bit.ly/2LEkcZH</a><strong><strong> </strong><a href="https://edin.ac/2LDU1T8"><br /></a><strong>Closing date: </strong></strong>22/1/21</p>
<p style="font-weight: 400;"><strong>From:</strong><span><strong> </strong></span>Ignazio Maria Viola, School of Engineering, University of Edinburgh, 15/12/20<strong><br />Subject:<span> </span></strong>Two<strong><span> </span></strong>Research Associate positions in Fluid Mechanics of Morphing Blades<br /><strong>Topic:<span> </span></strong>Fluid Structure Interaction, CFD (1<sup>st</sup> position) and<strong><span> </span></strong>experiments (2<sup>nd</sup><span> </span>position)<strong><br />Details:<span> </span></strong><a href="https://edin.ac/2LDU1T8">https://edin.ac/2LDU1T8<br /></a><strong>Closing date: </strong>12/1/21</p>
<p style="font-weight: 400;"><strong><span>From:<span class="xapple-converted-space0"><strong><span> </span></strong></span></span></strong><span class="xapple-converted-space0">Svetlana Aleksandrova, Coventry University, 15/12/20</span><strong><span><strong><span><br /><strong><span>Subject:</span></strong><span class="xapple-converted-space0"> </span></span></strong></span></strong><span class="xapple-converted-space0">Fully funded (GCRF) PhD project, international applicants eligible</span><strong><span><span><br /><strong><span>Topic:</span></strong><span class="xapple-converted-space0"><strong> </strong></span></span></span></strong><span class="xapple-converted-space0">Swirling flows for air and water filtration</span><strong><span><span><strong><br /><strong><span>Details: </span></strong></strong></span></span></strong><a href="https://bit.ly/2IXoeLP">https://bit.ly/2IXoeLP</a> <strong><span><span><strong><br /><strong><span>Closing date:</span></strong><span class="xapple-converted-space0"> </span></strong></span></span></strong><span class="xapple-converted-space0">25/1/21</span> </p>
<p style="font-weight: 400;"><strong><span>From:</span></strong> Jenny Wong, Universite de Lyon, 14/12/20<strong><span><strong><br />Subject: </strong></span></strong>Postdoctoral position (2 years)<strong><span><strong><br />Topic: </strong></span></strong>Penetrative convection: experiments on a rotating table;<strong><span><strong> </strong></span></strong>Fluid dynamics - Geophysics - Convection<strong><span><strong><br />Details: </strong></span></strong><a href="https://bit.ly/38ijNUK">https://bit.ly/38ijNUK</a><strong><span><strong> </strong><strong><br />Closing date: </strong></span></strong>31/1/21 (extended)</p>
<p style="font-weight: 400;"><strong><span>From: </span></strong><span>Yasser Mahmoudi, University of Manchester, 11/12/20<strong><br />Subject: </strong> Ph.D. in Machine Learning and CFD <strong><br />Topic: </strong>A Machine Learning Approach for Prediction of Turbulent Flow in Porous Media<strong><br />Details: </strong><a href="https://bit.ly/2KCUnJi">https://bit.ly/2KCUnJi</a> <strong><br />Closing date: </strong>29/3/21 </span></p>
<p style="font-weight: 400;"><strong><span>From: </span></strong>Thibault Congy, Northumbria University, 10/12/20<strong><span><br /><span>Subject:</span></span></strong> Competition Funded PhD Project<strong><span><br /><span>Topic: </span></span></strong>Nonlinear wave description of transient jökulhlaup flows<strong><span><br /><span>Details:<span> </span></span></span></strong><a href="https://bit.ly/3ndLKDe">https://bit.ly/3ndLKDe</a>; Contact <a href="mailto:thibault.congy@northumbria.ac.uk">thibault.congy@northumbria.ac.uk</a><strong><span><br /><span>Closing date:</span></span></strong> 18/1/21</p>
<p style="font-weight: 400;"><strong><span>From: </span></strong>Suzanne Fielding, Durham University, 9/12/20<strong><span><br /><span>Subject: </span></span></strong>ERC funded PhD studentships at Durham: Soft Matter and Biological Physics (two studentships)<strong><span><br /><span>Topic: </span></span></strong>Statistical mechanics and rheology of yield stress materials, including active matter such as biological tissues (ERC Advanced Grant 'RheoYield')<strong><span><br /><span>Details: </span></span></strong><a href="https://bit.ly/2W5yjta">https://bit.ly/2W5yjta</a><strong><span><span> </span><br /><span>Closing date: </span></span></strong>22/1/21</p>
<p style="font-weight: 400;"><strong><span>From: </span></strong>Julien Landel and Oliver Jensen, University of Manchester, 8/12/20<strong><strong><span><strong><br />Subject:<span> </span></strong></span></strong></strong>Research Associate position<strong><strong><span><br /><strong>Topic:<span><span> </span></span></strong></span></strong></strong>Fluid Mechanics Modelling PDRA position on surfactant-laden turbulent flows over superhydrophobic surfaces<strong><strong><span><strong><br />Details:</strong></span></strong><strong><span><strong><span> </span></strong></span></strong></strong><span><a class="moz-txt-link-freetext" href="https://bit.ly/34aqBT9">https://bit.ly/34aqBT9</a><br /></span><strong><strong><span><strong>Closing date:</strong></span></strong><span><span><span> </span></span></span></strong>15/1/21</p>
<p style="font-weight: 400;"><strong>From:<span> </span></strong>Zhiwen Luo, University of Reading, 7/12/20<strong><br /></strong><strong>Subject: </strong>SCENARIO/NERC Ph.D. position <strong><br /><strong>Topic: </strong></strong>Airborne infection risk in complex urban environments: modelling, mapping and mitigation<strong><br /><strong>Details: </strong></strong><a href="https://bit.ly/3oB2STQ">https://bit.ly/3oB2STQ</a> <a href="https://www.findaphd.com/phds/project/scenario-airborne-infection-risk-in-complex-urban-environments-modelling-mapping-and-mitigation/?d1341p125972"><br /></a><strong>Closing date:</strong><span><strong> </strong></span>22/1/21 </p>
<p><strong>From: </strong>Ed Llewellin, Durham University, 7/12/20<strong><br /> Subject: </strong>18-month PDRA project<strong><br /> Topic: </strong>Multi-scale investigation of rheology and emplacement of multi-phase lava (volcanological fluid dynamics)<span><br /> <span><strong>Details:</strong> <a href="https://bit.ly/2VSieXA">https://bit.ly/2VSieXA</a> </span><strong><br /> </strong></span><span><span><strong>Closing date: </strong></span></span><span><span>17/1/21</span></span></p>
<p style="font-weight: 400;"><strong>From: </strong>Soroush Abolfathi, University of Warwick, 5/12/20<br /><strong>Subject: </strong>PhD Studentship<strong><br /><strong>Topic: </strong></strong>Dynamics of pollution transport in constructed wetlands: identification and quantification of underlying physical mechanisms of solute and solid (microplastic) transport<strong><br /><strong>Details:</strong><span> </span></strong><a href="https://bit.ly/2W8JTE1">https://bit.ly/2W8JTE1</a>  <strong><br /><strong>Closing date: </strong></strong>11/1/21</p>
<p style="font-weight: 400;"><strong>From: </strong>Soroush Abolfathi, University of Warwick, 5/12/20<br /><strong>Subject: </strong>PhD Studentship<strong><br /><strong>Topic: </strong></strong>The fate of microplastics in aquatic environments: Effect of Size, Shape, and Density<strong><br /><strong>Details:</strong><span> </span></strong><a href="https://bit.ly/3oBMx0W">https://bit.ly/3oBMx0W</a><strong><span> </span><br /><strong>Closing date: </strong></strong>11/1/21</p>
<div>
<div><span></span>
<div>
<div><strong><span>From:</span></strong><span> Martin Brinkmann, Northumbria University, 3/12/20</span></div>
<div><strong><span>Subject:</span></strong><strong><span><span> </span></span></strong>Funded<strong><span><span> </span></span></strong><span>PhD Project<br /></span><strong><span>Topic:</span></strong><strong><span><span> </span></span></strong><span>Controlling directional spreading on smart surfaces<br /></span><strong><span>Details:<span> </span></span></strong><a title="Original URL: https://tinyurl.com/y3mgd38n. Click or tap if you trust this link." href="https://eur02.safelinks.protection.outlook.com/?url=https%3A%2F%2Ftinyurl.com%2Fy3mgd38n&data=04%7C01%7Cmartin.brinkmann%40northumbria.ac.uk%7Cb0266215b2344f7aef6d08d897c352ef%7Ce757cfdd1f354457af8f7c9c6b1437e3%7C0%7C0%7C637426212451160601%7CUnknown%7CTWFpbGZsb3d8eyJWIjoiMC4wLjAwMDAiLCJQIjoiV2luMzIiLCJBTiI6Ik1haWwiLCJXVCI6Mn0%3D%7C1000&sdata=li7C4IJVWIO%2FIeIH5AJjQBGGQR5G7vmmf2uu8Q8DrCA%3D&reserved=0">https://tinyurl.com/y3mgd38n</a> </div>
<div><strong><span>Closing date:</span></strong><strong><span><span> </span></span></strong><span>29/1/21<strong> </strong></span></div>
<div> </div>
</div>
<div><span><strong>From: </strong><span>Matteo Carpentieri, University of Surrey, 3/12/20<strong><br /><strong><span>Subject: </span></strong></strong>SCENARIO/NERC Ph.D. position <strong><br /><strong><span>Topic: </span></strong></strong>The aerodynamics of skyscrapers: tall building clusters and the urban environment<strong><br /><strong><span>Details: </span></strong></strong><a href="https://bit.ly/3ga3XPi">https://bit.ly/3ga3XPi</a><strong><span> </span><br /><strong><span>Closing date:</span></strong><span class="apple-converted-space"> </span></strong>22/1/21</span></span></div>
</div>
</div>
<div> </div>
<div>
<div><strong><span>From:</span></strong><span> Edward Hart, University of Strathclyde, 2/12/20</span></div>
<div><strong><span>Subject:</span></strong><strong><span><span> </span></span></strong>PhD position b<span>etween the Universities of Strathclyde (UK),<span> </span>Boulder (Colorado) and the US National Renewable Energy Laboratory</span><span><br /></span><strong><span>Topic:</span></strong><strong><span><span> </span></span></strong>Impacts of Atmospheric Turbulence on Wind Turbine Main-Bearing Function and Failures<span><br /></span><strong><span>Details:<span> </span></span></strong><a href="https://bit.ly/2JQ9mPl">https://bit.ly/2JQ9mPl</a> </div>
<div><strong><span>Closing date:</span></strong><strong><span><span> </span></span></strong>1/5/21</div>
</div>
<div> </div>
<div><strong>From:<span class="xapple-converted-space0"><span> </span></span></strong><span class="xapple-converted-space0">Pavlos Aleiferis, Imperial College London, 1/12/20</span><strong><span class="xapple-converted-space0"><span><br /></span></span><strong><strong><span><strong><span>Subject:</span></strong><span class="xapple-converted-space0"> </span></span></strong></strong></strong><span class="xapple-converted-space0">Two Lecturer/Senior Lecturer Positions</span><strong><strong><span><br /><strong><span>Topic:</span></strong><span class="xapple-converted-space0"><strong> </strong></span></span></strong></strong><span class="xapple-converted-space0">Fluid Dynamics (micro and nano scale using experimental techniques); Thermodynamics and Fluid Mechanics</span><strong><strong><strong><br /><strong>Details: </strong></strong></strong></strong><a href="https://bit.ly/2HYawYy">https://bit.ly/2HYawYy</a>; <a href="https://bit.ly/2JCtl3W">https://bit.ly/2JCtl3W</a>  <strong><strong><strong><strong> </strong></strong></strong><strong><span><strong><br /><strong><span>Closing date:</span></strong><span class="xapple-converted-space0"> </span></strong></span></strong></strong><span class="xapple-converted-space0">31/12/20</span></div>
<div> </div>
<div><strong>From:<span class="xapple-converted-space0"><strong><span> </span></strong></span></strong><span class="xapple-converted-space0">Alexandros Askounis, University of East Anglia, 1/12/20</span><strong><strong><span><br /><strong><span>Subject:</span></strong><span class="xapple-converted-space0"> </span></span></strong></strong><span class="xapple-converted-space0">Competition funded PhD studentship</span><strong><span><br /><strong><span>Topic:</span></strong><span class="xapple-converted-space0"><strong> </strong></span></span></strong><span class="xapple-converted-space0">Development of novel drug delivery methods using piezoelectric printing</span><strong><span><strong><br /><strong><span>Details: </span></strong></strong></span></strong><a href="https://bit.ly/33yCodD">https://bit.ly/33yCodD</a> <strong><span><strong><br /><strong><span>Closing date:</span></strong><span class="xapple-converted-space0"> </span></strong></span></strong><span class="xapple-converted-space0">15/1/21</span><strong><br /></strong></div>
<div> </div>
<div>
<p style="font-weight: 400;"><strong>From: </strong>Soroush Abolfathi, University of Warwick, 27/11/20<br /><strong>Subject: </strong>PhD Studentship<strong><br /><strong>Topic: </strong></strong>Multiphase Flows in Engineered Porous Media<strong><br /><strong>Details:</strong></strong><a href="https://bit.ly/2VugWSm"> https://bit.ly/2VugWSm</a><strong><span> </span></strong><strong><br /><strong>Closing date: </strong></strong>18/1/21</p>
</div>
<p style="font-weight: 400;"><strong><strong>From: </strong></strong>Daniel Chung, University of Melbourne, 24/11/20<strong><strong><strong><strong><br />Subject: </strong></strong></strong></strong>PhD and postdoc research opportunities<strong><strong><strong><strong><br />Topic: </strong></strong></strong></strong>E<span>xperimental and computational, in wall turbulence over roughness and riblets</span><strong><strong><strong><strong><br />Details: </strong></strong></strong></strong><a href="https://bit.ly/33lykNA">https://bit.ly/33lykNA</a><strong><strong><strong><strong> </strong></strong><strong><strong><br />Closing date:<span> </span></strong></strong></strong></strong>15/1/21</p>
<p style="font-weight: 400;"><strong><strong>From: </strong></strong>Marco Placidi, University of Surrey, 24/11/20<strong><strong><br />Subject: </strong></strong>SCENARIO/NERC Ph.D. position in Aerodynamics and Environmental Flow<strong><strong><br />Topic: </strong></strong>The effect of non-neutral winds on wind power aerodynamics<strong><strong><br />Details: </strong></strong><a href="https://bit.ly/2JizlP7">https://bit.ly/2JizlP7</a><strong><strong> <br />Closing date: </strong></strong>22/1/21<strong><strong><br /> <br />From: </strong></strong>Alan Robins, University of Surrey, 24/11/20<strong><strong><br />Subject: </strong></strong>Two short-term PDRA positions in the MAGIC project<strong><strong><br />Topic: </strong></strong>Environmental flows - wind tunnel studies, result analysis, and interpretation<strong><strong><br />Details: </strong></strong>Please contact Prof. Alan Robins (a.robins@surrey.ac.uk) or Dr David Birch (d.birch@surrey.ac.uk), and consult <a href="http://www.magic-air.uk/">http://www.magic-air.uk/</a><strong><strong><br />Closing date: </strong></strong>Open until filled</p>
<p><strong>From:</strong> Miguel Teixeira, University of Reading, 16/11/20<br /><strong>Subject:</strong> Fully funded PhD Studentship, with CASE support, within the SCENARIO DTP ( Reference: SC2021_24 )<br /><strong>Topic:</strong> Meteorology - 'Trapped lee waves as a source of low-level drag on the atmosphere'<br /><strong>Details:</strong> <span> </span><a id="LPlnk314055" href="https://tinyurl.com/y53dpbyu">https://tinyurl.com/y53dpbyu</a><span> </span>and<span> </span><a id="LPlnk" href="https://tinyurl.com/y2osun67">https://tinyurl.com/y2osun67<br /></a><strong>Closing date:</strong> 22/1/21 </p>
<p style="font-weight: 400;"><strong><span>From: </span></strong>Claire Savy, University of Leeds, 13/11/20<br /><strong><span><span><strong><strong><span>Subject:</span></strong></strong> </span></span></strong>EPSRC CDT Fluid Dynamics, Up to 10 funded PhD places for 2021 entry<strong><span><span><br /><strong><span>Topic:</span></strong> </span></span></strong>Fluid Dynamics (various)<strong><span><span><br /><strong><span>Details:</span></strong><span> </span></span></span></strong><a href="https://bit.ly/3koqcBv">https://bit.ly/3koqcBv</a><strong><span><span><span> </span><br /><strong><span>Closing date:</span></strong> </span></span></strong>13/1/21</p>
<div>
<div> </div>
<div>  </div>
</div>
<div>
<div> </div>
<div>
<div> </div>
<div> </div>
</div>
<div> </div>
</div>
</body></html>