Tim Cockerill
Cited by
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Life cycle GHG assessment of fossil fuel power plants with carbon capture and storage
NA Odeh, TT Cockerill
Energy Policy 36 (1), 367-380, 2008
Life cycle analysis of UK coal fired power plants
NA Odeh, TT Cockerill
Energy conversion and management 49 (2), 212-220, 2008
Improved near surface wind speed predictions using Gaussian process regression combined with numerical weather predictions and observed meteorological data.
V Hoolohan, AS Tomlin, T Cockerill
Renewable Energy, 2018
Site‐specific design optimization of wind turbines
P Fuglsang, C Bak, JG Schepers, B Bulder, TT Cockerill, P Claiden, ...
Wind Energy: An International Journal for Progress and Applications in Wind …, 2002
Techno-economic modelling and cost functions of CO< sub> 2</sub> capture processes
J Klemeš, I Bulatov, T Cockerill
Computers & chemical engineering 31 (5), 445-455, 2007
The potential for peak shaving on low voltage distribution networks using electricity storage
AJ Pimm, TT Cockerill, PG Taylor
Journal of Energy Storage 16, 231-242, 2018
The cost of offshore wind: Understanding the past and projecting the future
P Heptonstall, R Gross, P Greenacre, T Cockerill
Energy Policy 41, 815-821, 2012
Thermodynamics and fluid mechanics of a Ranque-Hilsch Vortex Tube
TT Cockerill
Cambridge: University of Cambridge, 1998
Estimating the potential yield of small wind turbines in urban areas: A case study for Greater London, UK
DR Drew, JF Barlow, TT Cockerill
Journal of Wind Engineering and Industrial Aerodynamics 115, 104-111, 2013
The socio-technical transition of distributed electricity storage into future networks—System value and stakeholder views
PH Grünewald, TT Cockerill, M Contestabile, PJG Pearson
Energy Policy 50, 449-457, 2012
Energyscapes: Linking the energy system and ecosystem services in real landscapes
DC Howard, PJ Burgess, SJ Butler, SJ Carver, T Cockerill, AM Coleby, ...
Biomass and Bioenergy 55, 17-26, 2013
Technical benefits of energy storage and electricity interconnections in future British power systems
RK Edmunds, TT Cockerill, TJ Foxon, DB Ingham, M Pourkashanian
Energy 70, 577-587, 2014
The role of large scale storage in a GB low carbon energy future: Issues and policy challenges
P Grünewald, T Cockerill, M Contestabile, P Pearson
Energy Policy 39 (9), 4807-4815, 2011
Life cycle greenhouse gas assessment of a coal-fired power station with calcium looping CO2 capture and offshore geological storage
TF Hurst, TT Cockerill, NH Florin
Energy & Environmental Science 5 (5), 7132-7150, 2012
Engineering feasibility of carbon dioxide capture and storage
J Klemeš, T Cockerill, I Bulatov, S Shackely, C Gough
Carbon Capture and its Storage: An Integrated Assessment, Ashgate Publishing …, 2006
A framework for reviewing the trade-offs between, renewable energy, food, feed and wood production at a local level
PJ Burgess, M Rivas Casado, J Gavu, A Mead, T Cockerill, R Lord, ...
Renewable and sustainable energy reviews 16 (1), 129-142, 2012
Measuring significant variability characteristics: An assessment of three UK renewables
P Coker, J Barlow, T Cockerill, D Shipworth
Renewable Energy 53, 111-120, 2013
Developing an optimal electricity generation mix for the UK 2050 future
H Sithole, TT Cockerill, KJ Hughes, DB Ingham, L Ma, RTJ Porter, ...
Energy 100, 363-373, 2016
Energy system requirements of fossil-free steelmaking using hydrogen direct reduction
AJ Pimm, TT Cockerill, WF Gale
Journal of Cleaner Production, 127665, 2021
Time-of-use and time-of-export tariffs for home batteries: Effects on low voltage distribution networks
AJ Pimm, TT Cockerill, PG Taylor
Journal of Energy Storage 18, 447-458, 2018
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