Adam Hawkes
Cited by
Cited by
Future cost and performance of water electrolysis: An expert elicitation study
O Schmidt, A Gambhir, I Staffell, A Hawkes, J Nelson, S Few
International journal of hydrogen energy 42 (52), 30470-30492, 2017
Energy systems modeling for twenty-first century energy challenges
S Pfenninger, A Hawkes, J Keirstead
Renewable and Sustainable Energy Reviews 33, 74-86, 2014
The future cost of electrical energy storage based on experience rates
O Schmidt, A Hawkes, A Gambhir, I Staffell
Nature Energy 2 (8), 1-8, 2017
Hydrogen and fuel cell technologies for heating: A review
PE Dodds, I Staffell, AD Hawkes, F Li, P Grünewald, W McDowall, P Ekins
International journal of hydrogen energy 40 (5), 2065-2083, 2015
Projecting the future levelized cost of electricity storage technologies
O Schmidt, S Melchior, A Hawkes, I Staffell
Joule 3 (1), 81-100, 2019
How to decarbonise international shipping: Options for fuels, technologies and policies
P Balcombe, J Brierley, C Lewis, L Skatvedt, J Speirs, A Hawkes, I Staffell
Energy conversion and management 182, 72-88, 2019
A review of domestic heat pumps
I Staffell, D Brett, N Brandon, A Hawkes
Energy & Environmental Science 5 (11), 9291-9306, 2012
An assessment of CCS costs, barriers and potential
S Budinis, S Krevor, N Mac Dowell, N Brandon, A Hawkes
Energy strategy reviews 22, 61-81, 2018
Levelized cost of CO 2 mitigation from hydrogen production routes
B Parkinson, P Balcombe, JF Speirs, AD Hawkes, K Hellgardt
Energy & environmental science 12 (1), 19-40, 2019
Cost-effective operating strategy for residential micro-combined heat and power
AD Hawkes, MA Leach
Energy 32 (5), 711-723, 2007
An inter-model assessment of the role of direct air capture in deep mitigation pathways
G Realmonte, L Drouet, A Gambhir, J Glynn, A Hawkes, AC Köberle, ...
Nature communications 10 (1), 3277, 2019
Modelling high level system design and unit commitment for a microgrid
AD Hawkes, MA Leach
Applied energy 86 (7-8), 1253-1265, 2009
Estimating marginal CO2 emissions rates for national electricity systems
AD Hawkes
Energy Policy 38 (10), 5977-5987, 2010
Fuel cells for micro-combined heat and power generation
A Hawkes, I Staffell, D Brett, N Brandon
Energy & Environmental Science 2 (7), 729-744, 2009
Impacts of temporal precision in optimisation modelling of micro-Combined Heat and Power
A Hawkes, M Leach
Energy 30 (10), 1759-1779, 2005
Methane emissions: choosing the right climate metric and time horizon
P Balcombe, JF Speirs, NP Brandon, AD Hawkes
Environmental Science: Processes & Impacts 20 (10), 1323-1339, 2018
Societal transformations in models for energy and climate policy: the ambitious next step
E Trutnevyte, LF Hirt, N Bauer, A Cherp, A Hawkes, OY Edelenbosch, ...
One Earth 1 (4), 423-433, 2019
Fuel cell systems for small and micro combined heat and power (CHP) applications
DJL Brett, AD Hawkes, NP Brandon
Small and Micro Combined Heat and Power (CHP) Systems: Advanced Design …, 2011
Temporally explicit and spatially resolved global offshore wind energy potentials
J Bosch, I Staffell, AD Hawkes
Energy 163, 766-781, 2018
Long-run marginal CO2 emissions factors in national electricity systems
AD Hawkes
Applied Energy 125, 197-205, 2014
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