skip to primary navigationskip to content
lan 灯 破解版百度云
  • Study at Cambridge
  • About the University
  • Research at Cambridge
  • Study at Cambridge
  • Undergraduate
    • Courses
    • Applying
    • Events and open days
    • lan 灯 破解版百度云
    • lanter 专业版安卓破解版
  • Graduate
    • Why Cambridge
    • Course directory
    • How to apply
    • landeng破解版安卓版
    • Frequently asked questions
  • International students
  • Continuing education
  • Executive and professional education
  • Courses in education
  • About the University
  • How the University and Colleges work
  • 蓝什么灯vip破解版
  • Visiting the University
  • Term dates and calendars
  • Map
  • For media
  • Video and audio
  • Find an expert
  • Publications
  • Global Cambridge
  • News
  • Events
  • Public engagement
  • Jobs
  • Give to Cambridge
  • Research at Cambridge
  • lan 灯 破解版百度云
  • Home
  • CUED Division A

CUED Division A

Energy, Fluids and Turbomachinery

Studying at Cambridge

  • Home
  • News
  • Events
  • Research Directory
    • Research Directory Overview
    • lan灯破解百度云
    • PhD Students
    • 蓝1灯破解版百度云
    • Support Staff
    • Faculty - Energy
    • Faculty - Fluids
    • 蓝1灯破解版百度云
  • Teaching
  • lan 灯 破解版百度云

Welcome

This is the homepage for the Energy, Fluids and Turbomachinery Division.

This Division includes research into acoustics, aerodynamics, combustion, energy use and generation, fluid mechanics and turbomachinery. The Head of Division is Professor Nick Collings. The research spans from fundamental investigations of turbulent flows, to a wide range of applications including aircraft, internal combustion engines and environmental fluid dynamics. Much of the research is aimed towards reducing pollutants and noise, and is characterised by the closest integration between experiment and modelling. Further details are given under the three main research groups listed on the left.

The Division has collaborations with a variety of different industries. In particular, the University Gas Turbine Partnership (UGTP), a collaboration between the University of Cambridge and Rolls-Royce plc, involves over 20 academic staff in the Division. Its remit is to provide an integrated approach to the fluid mechanics and thermodynamics of gas turbines, compression and other systems critical to Rolls-Royce by linking research in the areas of turbomachinery, aerodynamics, noise and vibration, combustion, heat transfer and advanced cycles.

快连vp n软件下载

29th May 2023
Each student submits two copies of Final report plus an extra copy of their technical abstract, plus their log book or electronic equivalent to Group Centres by 4pm.

 

« August 2023 »
August
MoTuWeThFrSaSu
12
3456789
10111213141516
17181920212223
24252627282930
31