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 | 881 | 2015 |
Cluster analysis and prediction of residential peak demand profiles using occupant activity data A Satre-Meloy, M Diakonova, P Grünewald Applied Energy 260, 114246, 2020 | 133 | 2020 |
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 | 105 | 2012 |
Demand response from the non-domestic sector: Early UK experiences and future opportunities P Grünewald, J Torriti Energy policy 61, 423-429, 2013 | 102 | 2013 |
Reaching a 1.5 C target: socio-technical challenges for a rapid transition to low-carbon electricity systems N Eyre, SJ Darby, P Grünewald, E McKenna, R Ford Philosophical Transactions of the Royal Society A: Mathematical, Physical …, 2018 | 88 | 2018 |
Flexibility, dynamism and diversity in energy supply and demand: A critical review P Grunewald, M Diakonova Energy Research & Social Science 38, 58-66, 2018 | 87 | 2018 |
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 | 84 | 2011 |
High-resolution EUV imaging tools for resist exposure and aerial image monitoring M Booth, O Brisco, A Brunton, J Cashmore, P Elbourn, G Elliner, M Gower, ... Emerging Lithographic Technologies IX 5751, 78-89, 2005 | 77 | 2005 |
Simulating residential demand response: Improving socio-technical assumptions in activity-based models of energy demand E McKenna, S Higginson, P Grunewald, SJ Darby Energy Efficiency 11 (7), 1583-1597, 2018 | 71 | 2018 |
The diversity of residential electricity demand–A comparative analysis of metered and simulated data JL Ramírez-Mendiola, P Grünewald, N Eyre Energy and Buildings 151, 121-131, 2017 | 67 | 2017 |
Protecting data privacy is key to a smart energy future C Véliz, P Grunewald Nature Energy 3 (9), 702-704, 2018 | 57 | 2018 |
Square core jacketed air-clad fiber JR Hayes, JC Flanagan, TM Monro, DJ Richardson, P Grunewald, R Allott Optics Express 14 (22), 10345-10350, 2006 | 55 | 2006 |
Going with the wind: temporal characteristics of potential wind curtailment in Ireland in 2020 and opportunities for demand response E McKenna, P Grünewald, M Thomson IET Renewable Power Generation 9 (1), 66-77, 2015 | 50 | 2015 |
The role of hydrogen and fuel cells in providing affordable, secure low-carbon heat PE Dodds, P Ekins, A Hawkes, F Li, I Staffell, W McDowall, P Grünewald, ... | 50 | 2014 |
Daily life and demand: an analysis of intra-day variations in residential electricity consumption with time-use data A Satre-Meloy, M Diakonova, P Grünewald Energy Efficiency 13, 433-458, 2020 | 49 | 2020 |
Keep it simple: time‐of‐use tariffs in high‐wind scenarios P Grünewald, E McKenna, M Thomson IET Renewable Power Generation 9 (2), 176-183, 2015 | 49 | 2015 |
The electricity footprint of household activities-implications for demand models P Grunewald, M Diakonova Energy and Buildings 174, 635-641, 2018 | 34 | 2018 |
High-resolution EUV microstepper tool for resist testing and technology evaluation A Brunton, J Cashmore, P Elbourn, G Elliner, MC Gower, P Grunewald, ... Emerging Lithographic Technologies VIII 5374, 869-880, 2004 | 30 | 2004 |
Societal differences, activities, and performance: Examining the role of gender in electricity demand in the United Kingdom P Grünewald, M Diakonova Energy Research & Social Science 69, 101719, 2020 | 29 | 2020 |
The specific contributions of activities to household electricity demand P Grünewald, M Diakonova Energy and Buildings 204, 109498, 2019 | 25 | 2019 |