Building Capabilities in Radiation Sciences
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Building Capabilities in Radiation Sciences Simon M. Pimblott Dalton Cumbria Facility School of Chemistry, Univ. of Manchester
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Building Capabilities in Radiation Sciences. School of Chemistry, Univ. of Manchester. Simon M. Pimblott. Dalton Cumbria Facility. A £ 20+ million joint initiative between the University of Manchester and the Nuclear Decommissioning Authority. Westlakes. - PowerPoint PPT Presentation
Transcript of Building Capabilities in Radiation Sciences
Building Capabilities in Radiation Sciences
Simon M. Pimblott
Dalton Cumbria Facility
School of Chemistry, Univ. of Manchester
A £ 20+ million joint initiative between the University of Manchester
and the Nuclear Decommissioning Authority
Westlakes
BTC at Sellafield
1. Research facility for non-active engineering decommissioning & radiation science studies
2. University access to British Technology Center
• 5% of allocation for UoM usage
• 5% for academic collaborators under scheme administered UoM
“Nuclear Universities Research Consortium”
• PVC degradation by radiation
• Radiation chemistry of mixed media, especially Pu containing systems
• Production of molecular hydrogen (and the fate of complementary oxidant)
• Understanding the effects of mixed radiation fields
• Radiation induced production of corrosive agents
• Effects of radiation on cements and grouts
Research Challenges
Radiation effects on:
• Interfacial process
• Heterogeneous systems
• Humid and damp systems
• Hydrocarbons and organic polymers
• Chlorinated materials
in realistic environments i.e. under pressure & at temperature.
Research Needs
Nuclear Decommissioning & Waste Clean Up
Detailed model of radiation effectsTrack structure
simulation
Effects of physico-chemical processes
Radiation chemical& materials
modeling
ab initio theory
Experiment & data analysis
Reaction dynamics
theory
Physical infrastructure:
Mixed radiation types
Appropriate “analytic” support to allow surface and bulk interrogation
Computational facilities
Machine / electronics shop
Intellectual capacity:
Sustainable “resident” academic community
Requirements
Sources for Radiation Chemistry
Tandem Pelletron for1H, 4He & heavier ions
60Co irradiator Electron LINAC
Team target by 2010: 30 researchers
plus support personnel
• Chair Professor of Radiation Sciences
• 3 Junior Academics in Chemistry / Materials Sciences
• 6 Post-doctoral Research Associates / Experimental Officers
• 20 Graduate Students
Radiation SciencesProgramme
Free RadicalResearch
Radn ChemistryResearch
Radn DamageResearch
Materials InterrogationLaboratory
Radiation SourcesAnalytic SupportLaboratory
Surface ChemistryResearch
