Steven Firth
Steven Firth
Senior Lecturer in Building Performance Modelling, School of Civil and Building Engineering
Verified email at
Cited by
Cited by
Identifying trends in the use of domestic appliances from household electricity consumption measurements
S Firth, K Lomas, A Wright, R Wall
Energy and buildings 40 (5), 926-936, 2008
Turning lights into flights: estimating direct and indirect rebound effects for UK households
M Chitnis, S Sorrell, A Druckman, SK Firth, T Jackson
Energy policy 55, 234-250, 2013
Central heating thermostat settings and timing: building demographics
M Shipworth, SK Firth, MI Gentry, AJ Wright, DT Shipworth, KJ Lomas
Building Research & Information 38 (1), 50-69, 2010
Targeting household energy-efficiency measures using sensitivity analysis
SK Firth, KJ Lomas, AJ Wright
Building Research & Information 38 (1), 25-41, 2010
A simple model of PV system performance and its use in fault detection
SK Firth, KJ Lomas, SJ Rees
Solar energy 84 (4), 624-635, 2010
Who rebounds most? Estimating direct and indirect rebound effects for different UK socioeconomic groups
M Chitnis, S Sorrell, A Druckman, SK Firth, T Jackson
Ecological Economics 106, 12-32, 2014
The nature of domestic electricity-loads and effects of time averaging on statistics and on-site generation calculations
A Wright, S Firth
Applied Energy 84 (4), 389-403, 2007
National survey of summertime temperatures and overheating risk in English homes
A Beizaee, KJ Lomas, SK Firth
Building and Environment 65, 1-17, 2013
Embodied and operational energy for new-build housing: A case study of construction methods in the UK
CR Iddon, SK Firth
Energy and Buildings 67, 479-488, 2013
How are UK homes heated? A city-wide, socio-technical survey and implications for energy modelling
T Kane, SK Firth, KJ Lomas
Energy and Buildings 86, 817-832, 2015
Context, control and the spillover of energy use behaviours between office and home settings
C Littleford, TJ Ryley, SK Firth
Journal of Environmental Psychology 40, 157-166, 2014
A data management platform for personalised real-time energy feedback
D Murray, J Liao, L Stankovic, V Stankovic, R Hauxwell-Baldwin, C Wilson, ...
IET, 2015
Investigating CO2 emission reductions in existing urban housing using a community domestic energy model
SK Firth, KJ Lomas, AJ Wright
Building Simulation 9, 2098-2105, 2009
Information, communication and entertainment appliance use—Insights from a UK household study
M Coleman, N Brown, A Wright, SK Firth
Energy and Buildings 54, 61-72, 2012
Life-cycle assessment of a 100% solar fraction thermal supply to a European apartment building using water-based sensible heat storage
A Simons, SK Firth
Energy and Buildings 43 (6), 1231-1240, 2011
Challenges for capturing and assessing initial embodied energy: a contractor’s perspective
PJ Davies, S Emmitt, SK Firth
Construction Management and Economics 32 (3), 290-308, 2014
Smart homes, control and energy management: How do smart home technologies influence control over energy use and domestic life?
T Hargreaves, R Hauxwell-Baldwin, M Coleman, C Wilson, L Stankovic, ...
ECEEE-2015, 2015
Modeling occupant behavior in buildings
S Carlucci, M De Simone, SK Firth, MB Kjśrgaard, R Markovic, ...
Building and Environment 174, 106768, 2020
Measurement and analysis of household carbon: The case of a UK city
D Allinson, KN Irvine, JL Edmondson, A Tiwary, G Hill, J Morris, M Bell, ...
Applied Energy 164, 871-881, 2016
Occupant behaviour modelling in domestic buildings: the case of household electrical appliances
S Yilmaz, SK Firth, D Allinson
Journal of Building Performance Simulation 10 (5-6), 582-600, 2017
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