| Influences on the thermal efficiency of energy piles F Cecinato, FA Loveridge Energy 82, 1021-1033, 2015 | 205 | 2015 |
| Energy geostructures: a review of analysis approaches, in situ testing and model scale experiments F Loveridge, JS McCartney, GA Narsilio, M Sanchez Geomechanics for Energy and the Environment 22, 100173, 2020 | 193 | 2020 |
| Temperature response functions (G-functions) for single pile heat exchangers F Loveridge, W Powrie Energy 57, 554-564, 2013 | 167 | 2013 |
| Analysis and design methods for energy geostructures P Bourne-Webb, S Burlon, S Javed, S Kürten, F Loveridge Renewable and Sustainable Energy Reviews 65, 402-419, 2016 | 157 | 2016 |
| Characterisation of ground thermal and thermo-mechanical behaviour for shallow geothermal energy applications A Vieira, M Alberdi-Pagola, P Christodoulides, S Javed, F Loveridge, ... Energies 10 (12), 2044, 2017 | 139 | 2017 |
| 2D thermal resistance of pile heat exchangers F Loveridge, W Powrie Geothermics 50, 122-135, 2014 | 135 | 2014 |
| Pile heat exchangers: thermal behaviour and interactions FA Loveridge, W Powrie Proceedings of the Institute of Civil Engineers: Geotechnical Engineering …, 2013 | 133 | 2013 |
| Failures in transport infrastructure embankments KM Briggs, FA Loveridge, S Glendinning Engineering Geology 219, 107-117, 2017 | 131 | 2017 |
| Energy performance of diaphragm walls used as heat exchangers A Di Donna, F Cecinato, F Loveridge, M Barla Proceedings of the Institution of Civil Engineers-Geotechnical Engineering …, 2017 | 119 | 2017 |
| The future role of energy geostructures in fifth generation district heating and cooling networks SS Meibodi, F Loveridge Energy 240, 122481, 2022 | 107 | 2022 |
| The thermal performance of foundation piles used as heat exchangers in ground energy systems F Loveridge University of Southampton, 2012 | 95 | 2012 |
| Energy piles and other thermal foundations for GSHP – developments in UK practice and research T Amis, F Loveridge REHVA Journal 2014 (01), 32-35, 2014 | 84 | 2014 |
| The impact of climate and climate change on infrastructure slopes, with particular reference to southern England FA Loveridge, TW Spink, AS O'Brien, KM Briggs, D Butcher Geological Society of London 43 (4), 461-472, 2010 | 84 | 2010 |
| A comparison of laboratory and in situ methods to determine soil thermal conductivity for energy foundations and other ground heat exchanger applications JE Low, FA Loveridge, W Powrie, D Nicholson Acta geotechnica 10 (2), 209-218, 2015 | 80 | 2015 |
| G-Functions for multiple interacting pile heat exchangers F Loveridge, W Powrie Energy 64, 747-757, 2014 | 80 | 2014 |
| Comparison of two different models for pile thermal response test interpretation F Loveridge, W Powrie, D Nicholson Acta Geotechnica 9 (3), 367-384, 2014 | 75 | 2014 |
| Role of vegetation in sustainability of infrastructure slopes S Glendinning, F Loveridge, RE Starr-Keddle, MF Bransby, PN Hughes Proceedings of the Institution of Civil Engineers-Engineering Sustainability …, 2009 | 57 | 2009 |
| The role of ground conditions on the heat exchange potential of energy walls A Di Donna, F Loveridge, M Piemontese, M Barla Geomechanics for Energy and the Environment 25, 100199, 2021 | 50 | 2021 |
| Shallow geothermal energy systems for district heating and cooling networks: Review and technological progression through case studies JS Figueira, AG Gil, A Vieira, AK Michopoulos, DP Boon, F Loveridge, ... Renewable Energy 236, 121436, 2024 | 48 | 2024 |
| Thermal response testing through the Chalk aquifer in London, UK F Loveridge, G Holmes, W Powrie, T Roberts Proceedings of the Institution of Civil Engineers-Geotechnical Engineering …, 2013 | 44 | 2013 |
William PowrieProfessor of Geotechnical Engineering, University of SouthamptonVerified email at soton.ac.uk
