Summary
Nixon Sunny is currently working as a Research Associate at the Centre for Environmental Policy, Imperial College London.
During his PhD, Nixon developed a novel decision-making framework for studying regional energy transitions, accounting for techno-economics, systems analysis, and lifecycle assessments. His recent work has been focused on the design of robust H2-CO2 infrastructure for applications in the heating and industrial sectors. His research involves close collaboration with industrial stakeholders as well as distinguished research institutes within Europe, with the goal of expediting the deployment of low-carbon technologies across difficult-to-decarbonise sectors.
Formerly, Nixon was the lead developer of the open-source, open-access, integrated “chain tool” within work package 4 of the EU ERA-NET ACT project, ELEGANCY. He has provided evidence to several multinational industrial organizations, Committee on Climate Change, HMG's BEIS, engineering consultancies, etc. Furthermore, he works very closely with industry as well as the Government, providing support and technical analyses to support decision-making. He is a member of the Grantham Institute for Climate Change and Environment's “Science and Solutions for a Changing Planet” Doctoral Programme.
Presently, he is working on the H2020 project, NEGEM, to define the long-term carbon removal potential of different greenhouse gas removal technologies across Europe to meet the goals of the Paris Agreement.
Publications
Journals
Mersch M, Sunny N, Dejan R, et al., 2024, A comparative techno-economic assessment of blue, green, and hybrid ammonia production in the United States, Sustainable Energy & Fuels, Vol:8, ISSN:2398-4902, Pages:1495-1508
Wang Z, Acha S, Bird M, et al., 2024, A total cost of ownership analysis of zero emission powertrain solutions for the heavy goods vehicle sector, Journal of Cleaner Production, Vol:434, ISSN:0959-6526
Bui M, Sunny N, Mac Dowell N, 2023, The prospects of flexible natural gas-fired CCGT within a green taxonomy, Iscience, Vol:26
Chiquier S, Patrizio P, Bui M, et al., 2023, A comparative analysis of the efficiency, timing, and permanence of CO<sub>2</sub> removal pathways(Vol 15, pg 4389, 2022), Energy & Environmental Science, Vol:16, ISSN:1754-5692, Pages:321-321