| A review of the technologies, economics and policy instruments for decarbonising energy-intensive manufacturing industries TA Napp, A Gambhir, TP Hills, N Florin, PS Fennell Renewable and Sustainable Energy Reviews 30, 616-640, 2014 | 290 | 2014 |
| In situ gasification of a solid fuel and CO2 separation using chemical looping SA Scott, JS Dennis, AN Hayhurst, T Brown AIChE Journal 52 (9), 3325-3328, 2006 | 239 | 2006 |
| Gasification and chemical-looping combustion of a lignite char in a fluidized bed of iron oxide TA Brown, JS Dennis, SA Scott, JF Davidson, AN Hayhurst Energy & Fuels 24 (5), 3034-3048, 2010 | 104 | 2010 |
| Reducing CO2 emissions from heavy industry: a review of technologies and considerations for policy makers T Brown, A Gambhir, N Florin, P Fennell Grantham Institute Briefing Paper 7, 2012 | 90 | 2012 |
| Energy system changes in 1.5 C, well below 2 C and 2 C scenarios A Gambhir, J Rogelj, G Luderer, S Few, T Napp Energy Strategy Reviews 23, 69-80, 2019 | 79 | 2019 |
| India's CO 2 emissions pathways to 2050: Energy system, economic and fossil fuel impacts with and without carbon permit trading A Gambhir, TA Napp, CJM Emmott, G Anandarajah Energy 77, 791-801, 2014 | 76 | 2014 |
| Assessing the Feasibility of Global Long-Term Mitigation Scenarios A Gambhir, L Drouet, D McCollum, T Napp, D Bernie, A Hawkes, O Fricko, ... Energies 10 (1), 89, 2017 | 71 | 2017 |
| Exploring the feasibility of low-carbon scenarios using historical energy transitions analysis T Napp, D Bernie, R Thomas, J Lowe, A Hawkes, A Gambhir Energies 10 (1), 116, 2017 | 70 | 2017 |
| A hybrid modelling approach to develop scenarios for China's carbon dioxide emissions to 2050 A Gambhir, N Schulz, T Napp, D Tong, L Munuera, M Faist, K Riahi Energy Policy 59, 614-632, 2013 | 61 | 2013 |
| The attrition behaviour of oxygen-carriers under inert and reacting conditions TA Brown, F Scala, SA Scott, JS Dennis, P Salatino Chemical engineering science 71, 449-467, 2012 | 61 | 2012 |
| The appropriate use of reference scenarios in mitigation analysis N Grant, A Hawkes, T Napp, A Gambhir Nature Climate Change 10 (7), 605-610, 2020 | 60 | 2020 |
| Competition and norms: A self-defeating combination? G Alberts, Z Gurguc, P Koutroumpis, R Martin, M Muûls, T Napp Energy Policy 96, 504-523, 2016 | 59 | 2016 |
| The role of advanced demand-sector technologies and energy demand reduction in achieving ambitious carbon budgets TA Napp, S Few, A Sood, D Bernie, A Hawkes, A Gambhir Applied energy 238, 351-367, 2019 | 56 | 2019 |
| Cost reductions in renewables can substantially erode the value of carbon capture and storage in mitigation pathways N Grant, A Hawkes, T Napp, A Gambhir One Earth 4 (11), 1588-1601, 2021 | 38 | 2021 |
| The contribution of non-CO2 greenhouse gas mitigation to achieving long-term temperature goals A Gambhir, T Napp, A Hawkes, L Höglund-Isaksson, W Winiwarter, ... Energies 10 (5), 602, 2017 | 29 | 2017 |
| CCS from industrial sources PS Fennell, N Florin, T Napp, T Hills Sustainable Technologies, Systems and Policies, 17, 2012 | 26 | 2012 |
| Particle characterisation in chemical looping combustion CY Sim, T Brown, Q Chen, V Sharifi, J Swithenbank, J Dennis, S Scott Chemical engineering science 69 (1), 211-224, 2012 | 23 | 2012 |
| The Impact of Shale Gas on the Cost and Feasibility of Meeting Climate Targets—A Global Energy System Model Analysis and an Exploration of Uncertainties S Few, A Gambhir, T Napp, A Hawkes, S Mangeon, D Bernie, J Lowe Energies 10 (2), 158, 2017 | 21 | 2017 |
| Halving global CO2 by 2050: technologies and costs N Shah, L Vallejo, T Cockerill, A Gambhir, A Heyes, T Hills, M Jennings, ... Energy Futures Lab and Grantham Institute for Climate Change, Imperial …, 2013 | 15 | 2013 |
| A survey of key technological innovations for the low-carbon economy T Napp, T Hills, SM Soltani, J Bosch, C Mazur | 13* | |
ajay gambhirimperial college london在 imperial.ac.uk 的电子邮件经过验证
