Paul Anderson, Chemistry, p.a.anderson@bham.ac.uk,
The design, discovery and development of new hydrogen storage materials
Chris Baker, Civil Engineering, c.j.baker@bham.ac.uk
Wind Engineering and Wind Energy; Railway aerodynamics; Climate change and railways; Environmental Fluid Mechanics
David Book, Metallurgy and Materials, d.book@bham.ac.uk,
Materials for Hydrogen Storage and Purification; Hydrogen Processing of Materials; Magnetic Materials
John Bridgeman, Civil Engineering, j.bridgeman@bham.ac.uk
Sustainable water engineering solutions, including energy consumption at water and sewage treatment works.
Waldemar Bujalski, Chemical Engineering, w.bujalski@bham.ac.uk
Fuel cells and hydrogen; Combined Heat and Power; Single and multi-phase Mixing; Computational Fluid Dynamics
Tim Button, IRC Materials Processing, t.w.button@bham.ac.uk
Superconductors, micro structural and property development in functional ceramics, Application of high temperature superconductor materials
Stefan Buzar, GEES, s.buzar@bham.ac.uk
Energy governance in Eastern Europe, energy poverty, social issues and the built environment
Cynthia Carliell-Marquet, Civil Engineering, c.m.carliell@bham.ac.uk
Biogas for renewable energy, Waste treatment and minimisation
Andrew Chan, Civil Engineering, a.h.chan@bham.ac.uk
Numerical methods and constitutive modelling for static and dynamic geotechnical analysis and multiphase flows such as during petroleum extraction. Earthquake engineering for e.g. foundations of nuclear facilities
David Chapman, Civil Engineering, d.n.chapman@bham.ac.uk
Tunnelling and trenchless installation methods for buried infrastructure. Utilising nano-technology to produce 'smart' infrastructure.
Lawrence Coates, Civil Engineering, l.e.coates@bham.ac.uk
Programme Champion for Energy Engineering degrees
Matthew Cole, Economics, m.a.cole@bham.ac.uk
Interactions between international trade, economic growth and the environment, particularly the modelling of energy use and emissions
Julian Cooper, CREES, European Research Institute, j.m.cooper@bham.ac.uk
The Russian economy, including energy, trade, and security
Steve Decent, Mathematics, s.p.decent@bham.ac.uk
Mathematical modelling of fuel cells, including micro fuel cells
Rob Elliott, Economics, r.j.elliott@bham.ac.uk
Globalisation and the environment
Ian Gameson, Chemistry, i.gameson@bham.ac.uk
Hydrogen storage, nanoscale materials, superconducting thin films
Mark Gaterell, Civil Engineering, m.gaterell@bham.ac.uk
Sustainable engineering design and decision-making; developing passive building design strategies and integrating renewable energy technologies into the built environment
Richard Green, Economics, r.j.green@bham.ac.uk
Economics of the electricity supply industry, and policy towards it.
Director of the Institute for Energy Research and Policy
Rex Harris, Metallurgy and Materials, i.r.harris@bham.ac.uk
Hydrogen storage materials and permanent magnets
Roy Harrison, GEES, r.m.harrison@bham.ac.uk
Air pollution: atmospheric processes and health effects
Stuart Hillmansen, Electrical, Electronic and Computer Engineering, s.hillmansen@bham.ac.uk
Electrical energy systems
Kevin Kendall, Chemical Engineering, k.kendall@bham.ac.uk
Fuel cells, sustainable energy, catalysts and fine particles, adhesion
John Knott, Metallurgy and Materials, j.f.knott@bham.ac.uk
Fatigue and fracture of materials. Effects of residual stress. Materials for steam turbine, gas turbine and nuclear power generation of electricity
Lynne Macaskie, Bioscience, l.e.macaskie@bham.ac.uk
Bio-production of clean hydrogen from waste, bio-nanomaterials for fuel cells, nuclear waste treatment, nanoscale platinum and palladium recovery from waste
David Maddison, Economics, d.j.maddison@bham.ac.uk
Modelling emissions of pollutants, estimating the impact of climate change
John Nelson, Physics, j.m.nelson@bham.ac.uk
Nuclear physics: relativistic heavy ion collisions
Paul Norman, Physics, pin@np.ph.bham.ac.uk
Nuclear power technology
Richard Palmer, Physics, r.e.palmer@bham.ac.uk
Photocatalytic production of hydrogen; hydrogen storage in nanostructured materials
Judith Petts, GEES, j.i.petts@bham.ac.uk
Environmental risk and governance, energy from waste
Zoe Pikramenou, Chemistry, z.pikramenou@bham.ac.uk
Supramolecular systems for solar cells, Nanowires based on supramolecular assembly, Luminescent nanoparticles as flow trackers in microfluidics, DNA recognition by luminescent complexes
Andrew Quinn, Civil Engineering, a.d.quinn@bham.ac.uk
Wind Engineering; Small scale Wind Energy; Vehicle aerodynamics; Atmospheric environmental science - particularly the interactions of man, animals and crops with the atmospheric environment.
Clive Roberts, Electrical, Electronic and Computer Engineering, c.roberts.20@bham.ac.uk
Railway Engineering, Traction Systems, Distributed Fault Detection and Diagnosis, Condition Monitoring
Chris Rogers, Civil Engineering, c.d.f.rogers@bham.ac.uk
Tunnelling and trenchless pipelaying for infrastructure; Sustainable urban environments
Neil Rowson, Chemical Engineering, n.a.rowson@bham.ac.uk
Recovering waste materials, including from vehicle catalysts
Regina Santos, Chemical Engineering, r.c.d.santos@bham.ac.uk
Supercritical fluids and their applications, Gasification of wet biomass for the production of hydrogen
Thorsten Schnier, Cercia, Computer Science, t.schnier@cs.bham.ac.uk
Evolutionary Design and Optimization, Consumption Monitoring, other Computational Intelligence Applications
Trevor Shields, Health and Safety Unit, t.c.shields@bham.ac.uk
Sustainability and Environmental Advisor to the University; Carbon management and raising environmental awareness
Mark Simmons, Chemical Engineering, m.j.simmons@bham.ac.uk
Computational fluid mechanics, including in fuel cells
Mark Sterling, Civil Engineering, m.sterling@bham.ac.uk
Environmental fluid mechanics; Wind Engineering; Hydraulic Engineering
Michael Sterling, Vice Chancellor, m.j.h.sterling@bham.ac.uk
Electrical engineering; power system control; energy policy
Dave Toke, Sociology, d.toke@bham.ac.uk
Wind power; renewable energy; combined heat and power; energy efficiency; political economy of energy
Thanos Tsolakis, Mechanical and Manufacturing Engineering, a.tsolakis@bham.ac.uk
New combustion and energy conversion technologies; alternative fuels
Garry Tungate, Physics, g.tungate@bham.ac.uk
Nuclear Physics
Dan van der Horst, Geography, d.vanderhorst@bham.ac.uk
Policy evaluation, rural land use, biomass energy, public perception of energy
Allan Walton, , Metallurgy and Materials, a.walton@bham.ac.uk
Hydrogen storage and purification
Jihong Wang, Electrical, Electronic and Computer Engineering, j.h.wang@bham.ac.uk
Nonlinear control system theory; Modelling and control of power systems and mechatronic systems; Energy efficient systems and actuators
David Weaver, Physics, d.r.weaver@bham.ac.uk
Physics and technology of nuclear reactors
Andy Williams, Metallurgy and Materials, a.j.williams@bham.ac.uk
Processing, characterisation and applications of magnetic materials. The use of hydrogen in the processing and control of microstructure of materials.
Joe Wood, Chemical Engineering, j.wood@bham.ac.uk
Catalysis, CO2 adsorption and activation, Enhanced recovery and in-situ upgrading of heavy oil.
Miroslaw Wyszynski, , Mechanical and Manufacturing Engineering, m.l.wyszynski@bham.ac.uk
New combustion and energy conversion technologies: future fuels and future engines, alternative, biomass-derived and hydrogen-enriched fuels.
Hongming Xu, Mechanical and Manufacturing, h.m.xu@bham.ac.uk
New combustion and energy conversion technologies; alternative fuels for automotive engines
Xiao-Ping Zhang, Electrical, Electronic and Computer Engineering, x.p.zhang@bham.ac.uk
Flexible AC Transmission Systems; Power system economics; Integration of distributed generation into power systems; Micro-generation and Micro-grid.
