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Meteorology (human) PhD Projects, Programs & Scholarships

We have 11 Meteorology (human) PhD Projects, Programs & Scholarships

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  Self-Organisation in Urban Atmospheric Aerosols?
  Dr C Pfrang, Dr Z Shi
Application Deadline: 10 January 2020

Funding Type

PhD Type

The project will investigate the potential impact on cloud formation & urban pollution of self-organisation within aerosol particles.
  SCENARIO - Predicting the ecological and societal impacts of species on the move with climate change in the UK
  Dr N Pettorelli, Dr J Neumann, Prof K Norris, Dr L Shaffrey
Application Deadline: 24 January 2020

Funding Type

PhD Type

There is a growing recognition that the redistribution of species driven by a changing climate is creating profound challenges for societies and regional economies around the globe.
  Our Place Our Future: Developing and testing an integrated climate risk framework for heritage sites in Scotland.
  Dr K Crowley
Application Deadline: 9 January 2020

Funding Type

PhD Type

Climate change is not only threatening our future but destroying our past. Working with Historic Environment Scotland (HES) this project will examine the impacts to heritage sites in Scotland under future extreme climate risk scenarios.
  Near Real-Time Multiscale Hybrid Surface Water Flooding Risk Forecasting. PhD in Engineering (NERC GW4 + DTP)
  Dr A Chen
Application Deadline: 6 January 2020

Funding Type

PhD Type

Lead Supervisor. Dr Albert Chen, Department of Engineering, Centre for Water Systems, College of Engineering, Mathematics and Physical Sciences, University of Exeter.
  Next-generation model for plant ozone damage: a big step towards smaller uncertainties and more robust climate predictions. PhD in Mathematics (NERC GW4+ DTP)
  Prof N Unger
Application Deadline: 6 January 2020

Funding Type

PhD Type

Lead Supervisor. Prof Nadine Unger, Department of Mathematics, College of Engineering, Mathematics and Physical Sciences, University of Exeter.
  Reducing Uncertainty in the Response of the Earth System to Anthropogenic CO2 Emissions with Statistical Emulation of Land Surface Models. PhD in Mathematics (NERC GW4+ DTP)
  Dr O Stoner
Application Deadline: 6 January 2020

Funding Type

PhD Type

Lead Supervisor. Dr Oliver Stoner, Department of Mathematics, College of Engineering, Mathematics and Physical Sciences, University of Exeter.
  SCENARIO - Atmosphere blocking dynamics: Persistence, re-intensification and interaction with other weather systems
  Research Group: SCENARIO NERC DTP
  Dr O Martinez-Alvarado, Dr R Schiemann, Dr K Hodges
Application Deadline: 24 January 2020

Funding Type

PhD Type

Atmospheric blocking occurs when persistent high-pressure systems (or anticyclones) remain quasi-stationary over a given location or region at mid- or high-latitudes.
  SCENARIO - Causal discovery algorithms for the study of climate change impacts on the global water cycle
  Research Group: SCENARIO NERC DTP
  Dr M.I. Hegglin, Dr V Ojha
Application Deadline: 24 January 2020

Funding Type

PhD Type

The water cycle plays a critical role in shaping the global environment and supporting life on Earth. Climate change is predicted to lead to changes in the water cycle, affect available water resources, and as a consequence endanger the livelihoods of societies especially in the developing world.
  SCENARIO - Fundamental Mechanisms of Arctic Summer-time Cyclone Growth and Sea-Ice Interaction
  Research Group: SCENARIO NERC DTP
  Prof J Methven, Dr B Harvey
Application Deadline: 24 January 2020

Funding Type

PhD Type

As the climate has warmed in response to increasing greenhouse gases, the September minimum in Arctic sea-ice extent has decreased dramatically and the drift speed of summer Arctic pack ice has increased, attributed to thinner ice.
  SCENARIO - Using Aircraft Observations Improve Understanding of Mineral Dust Transport and Deposition Processes
  Research Group: SCENARIO NERC DTP
  Dr C Ryder, Dr N Bellouin
Application Deadline: 24 January 2020

Funding Type

PhD Type

Every year thousands of tonnes of mineral dust particles are uplifted from arid regions by strong winds. While in the atmosphere, mineral dust is a hazard for health, transport and solar energy generation.
  SCENARIO - Using high-resolution climate models to predict increases in atmospheric turbulence
  Research Group: SCENARIO NERC DTP
  Prof P Williams, Dr R Schiemann
Application Deadline: 24 January 2020

Funding Type

PhD Type

Atmospheric turbulence is the leading cause of in-flight injuries to air travellers and flight attendants. Tens of thousands of aircraft encounter severe turbulence annually, injuring hundreds of people and causing structural damage to planes.
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