Domestic electricity use: A high-resolution energy demand model I Richardson, M Thomson, D Infield, C Clifford Energy and buildings 42 (10), 1878-1887, 2010 | 1307 | 2010 |
A high-resolution domestic building occupancy model for energy demand simulations I Richardson, M Thomson, D Infield Energy and buildings 40 (8), 1560-1566, 2008 | 778 | 2008 |
Impact of widespread photovoltaics generation on distribution systems M Thomson, DG Infield IET Renewable Power Generation 1 (1), 33-40, 2007 | 563 | 2007 |
Smart meter data: Balancing consumer privacy concerns with legitimate applications E McKenna, I Richardson, M Thomson Energy Policy 41, 807-814, 2012 | 472 | 2012 |
High-resolution stochastic integrated thermal–electrical domestic demand model E McKenna, M Thomson Applied Energy 165, 445-461, 2016 | 398 | 2016 |
Domestic lighting: A high-resolution energy demand model I Richardson, M Thomson, D Infield, A Delahunty Energy and Buildings 41 (7), 781-789, 2009 | 273 | 2009 |
Network power-flow analysis for a high penetration of distributed generation M Thomson, DG Infield IEEE Transactions on Power Systems 22 (3), 1157-1162, 2007 | 273 | 2007 |
A photovoltaic-powered seawater reverse-osmosis system without batteries M Thomson, D Infield Desalination 153 (1-3), 1-8, 2003 | 250 | 2003 |
The evolution of electricity demand and the role for demand side participation, in buildings and transport J Bartona, S Huangb, D Infieldb, M Leachc, D Ogunkunlec, J Torritid, ... Energy Policy 52, 85-102, 2013 | 201 | 2013 |
The evolution of electricity demand and the role for demand side participation, in buildings and transport J Barton, S Huang, D Infield, M Leach, D Ogunkunle, J Torriti, M Thomson Energy Policy 52, 85-102, 2013 | 201 | 2013 |
Electrical integration of renewable energy into stand-alone power supplies incorporating hydrogen storage M Little, M Thomson, D Infield International Journal of Hydrogen Energy 32 (10-11), 1582-1588, 2007 | 182 | 2007 |
Economic and environmental impact of lead-acid batteries in grid-connected domestic PV systems E McKenna, M McManus, S Cooper, M Thomson Applied energy 104, 239-249, 2013 | 163 | 2013 |
Four-state domestic building occupancy model for energy demand simulations E McKenna, M Krawczynski, M Thomson Energy and Buildings 96, 30-39, 2015 | 149 | 2015 |
A small-scale seawater reverse-osmosis system with excellent energy efficiency over a wide operating range M Thomson, MS Miranda, D Infield Desalination 153 (1-3), 229-236, 2003 | 131 | 2003 |
Reverse-osmosis desalination of seawater powered by photovoltaics without batteries M Thomson Loughborough University, 2003 | 121 | 2003 |
Laboratory demonstration of a photovoltaic-powered seawater reverse-osmosis system without batteries M Thomson, D Infield Desalination 183 (1-3), 105-111, 2005 | 109 | 2005 |
Transition pathways for a UK low-carbon electricity system: Comparing scenarios and technology implications J Barton, L Davies, B Dooley, TJ Foxon, S Galloway, GP Hammond, ... Renewable and Sustainable Energy Reviews 82, 2779-2790, 2018 | 106* | 2018 |
“For the times they are a-changin”: the impact of shifting energy-use practices in time and space S Higginson, M Thomson, T Bhamra Local Environment 19 (5), 520-538, 2014 | 102 | 2014 |
Diagramming social practice theory: An interdisciplinary experiment exploring practices as networks S Higginson, E McKenna, T Hargreaves, J Chilvers, M Thomson Indoor and Built Environment 24 (7), 950-969, 2015 | 101 | 2015 |
Integrated simulation of photovoltaic micro-generation and domestic electricity demand: a one-minute resolution open-source model I Richardson, M Thomson proceedings of the institution of Mechanical Engineers, Part A: Journal of …, 2013 | 95 | 2013 |