Prof. Colm-cille Caulfield: How the mystery of stratified turbulence is controlling all our futures
Title: Mixing up the climate? How the mystery of stratified turbulence is controlling all our futures
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Abstract:
Richard Feynman acknowledged that "turbulence is the most important unsolved problem of classical physics”, and it is always important to remember that he was referring to the simplest case of a fluid of constant density. An even more challenging class of problems arise when the turbulent fluid has a variable density, as turbulent mixing can then convert injected kinetic energy into both viscous dissipation and potential energy. Of course, the earth’s oceans are just such variable-density stratified fluids, and the larger scale effect of such stratified turbulence is one of the key areas of uncertainty in modelling the global climate system. As human activity strongly perturbs that system’s boundary conditions, it is critical to understand better how stratified turbulence is born, lives and dies within the world’s oceans. Fortunately, enormous advances in data availability from both observation and numerical simulation have led to breakthroughs in our fundamental understanding of turbulence in stratified fluids. In this talk I review some of these recent breakthroughs, and pose some of the fascinating open questions still requiring answers, highlighting how access to vast quantities of data is both a challenge and an exciting opportunity for the mathematically-minded (classical) physicist."
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About the speaker:
Colm-cille Caulfield is the Head of Department of Applied Mathematics and Theoretical Physics at the University of Cambridge. His research groups include Cantab Capital Institute for the Mathematics of Information and the High-Reynolds-Number Fluid Flow. He has taught in universities across the world including University of Toronto, Hokkaido University, University of Bristol, University of California, San Diego, Ecole Polytechnique-CNRS, and now in the University of Cambridge. His research focuses on stratified flow, turbulent mixing processes, generalised flow instability and transition, turbulent plumes, and building ventilation.
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CUPS - Cambridge University Physics Society
We are a student-run university society organising scientific talks and other events for our members and public. CUPS is all about the physics you don't do in your degree.
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Видео Prof. Colm-cille Caulfield: How the mystery of stratified turbulence is controlling all our futures канала CUPS - Cambridge University Physics Society
—
Abstract:
Richard Feynman acknowledged that "turbulence is the most important unsolved problem of classical physics”, and it is always important to remember that he was referring to the simplest case of a fluid of constant density. An even more challenging class of problems arise when the turbulent fluid has a variable density, as turbulent mixing can then convert injected kinetic energy into both viscous dissipation and potential energy. Of course, the earth’s oceans are just such variable-density stratified fluids, and the larger scale effect of such stratified turbulence is one of the key areas of uncertainty in modelling the global climate system. As human activity strongly perturbs that system’s boundary conditions, it is critical to understand better how stratified turbulence is born, lives and dies within the world’s oceans. Fortunately, enormous advances in data availability from both observation and numerical simulation have led to breakthroughs in our fundamental understanding of turbulence in stratified fluids. In this talk I review some of these recent breakthroughs, and pose some of the fascinating open questions still requiring answers, highlighting how access to vast quantities of data is both a challenge and an exciting opportunity for the mathematically-minded (classical) physicist."
—
About the speaker:
Colm-cille Caulfield is the Head of Department of Applied Mathematics and Theoretical Physics at the University of Cambridge. His research groups include Cantab Capital Institute for the Mathematics of Information and the High-Reynolds-Number Fluid Flow. He has taught in universities across the world including University of Toronto, Hokkaido University, University of Bristol, University of California, San Diego, Ecole Polytechnique-CNRS, and now in the University of Cambridge. His research focuses on stratified flow, turbulent mixing processes, generalised flow instability and transition, turbulent plumes, and building ventilation.
---------
CUPS - Cambridge University Physics Society
We are a student-run university society organising scientific talks and other events for our members and public. CUPS is all about the physics you don't do in your degree.
FIND US ON THE INTERNET:
Website - http://www.camphysoc.co.uk
Facebook - http://www.facebook.com/camphysoc
Twitter - http://www.twitter.com/camphysoc
Instagram - https://www.instagram.com/camphysoc/
Tiktok - https://www.tiktok.com/@cambridgephysics
talks.cam - http://talks.cam.ac.uk/show/index/6558
Видео Prof. Colm-cille Caulfield: How the mystery of stratified turbulence is controlling all our futures канала CUPS - Cambridge University Physics Society
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18 ноября 2021 г. 1:43:04
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