Open Access
| Issue |
E3S Web Conf.
Volume 712, 2026
2026 16th International Conference on Future Environment and Energy (ICFEE 2026)
|
|
|---|---|---|
| Article Number | 07002 | |
| Number of page(s) | 9 | |
| Section | Data-Driven Energy Systems Management and Decision Support | |
| DOI | https://doi.org/10.1051/e3sconf/202671207002 | |
| Published online | 19 May 2026 | |
- G S. Fossil Future: Why Global Human Flourishing Requires More Oil, Coal and Natural Gas --Not Less” by Alex Epstein. JIAS. 2022;39:58–68. [Google Scholar]
- Nwachukwu CO, Diemuodeke EO, Briggs TA, Ojapah MM, Okereke C, Okedu KE, et al. Low/zero carbon technology diffusion and mapping for Nigeria’s decarbonization. International Journal of Sustainable Energy. 2024;43. [Google Scholar]
- Gulagi A, Alcanzare M, Bogdanov D, Esparcia E, Ocon J, Breyer C. Transition pathway towards 100% renewable energy across the sectors of power, heat, transport, and desalination for the Philippines. Renewable and Sustainable Energy Reviews. 2021;144:110934. [Google Scholar]
- Mishra R, Pundir AK, Ganapathy L. Evaluation and prioritisation of manufacturing flexibility alternatives using integrated AHP and TOPSIS method. BIJ. 2017;24:1437–1465. [Google Scholar]
- Vashold L, Crespo Cuaresma J. A unified modelling framework for projecting sectoral greenhouse gas emissions. Commun Earth Environ. 2024;5. [Google Scholar]
- Kern C, Jess A. Reducing Global Greenhouse Gas Emissions to Meet Climate Targets—A Comprehensive Quantification and Reasonable Options. Energies. 2021;14:5260. [Google Scholar]
- Sumon M, Uddin M, Debnath P, Khan M, Pant L, Rahman A, et al. Environmental and Socio-Economic Impact Assessment of Renewable Energy Using Machine Learning Models. JEFAS. 2024;6:112–122. [Google Scholar]
- Acar C, Dincer I. Environmental impact assessment of renewables and conventional fuels for different end use purposes. IJGW. 2017;13:260. [Google Scholar]
- Furlan G, You F. Robust design of hybrid solar power systems: Sustainable integration of concentrated solar power and photovoltaic technologies. Advances in Applied Energy. 2024;13:100164. [Google Scholar]
- Agaton CB, Guno CS, Collera AA. Socio-Economic and Environmental Analyses of Sustainable Public Transport in the Philippines. Sustainability. 2020;12:4720. [Google Scholar]
- Phoumin H, Arima J, Kimura F. ASEAN’s Energy Transition towards Cleaner Energy System: Energy Modelling Scenarios and Policy Implications. Sustainability. 2021;13:2819. [Google Scholar]
- Bengtsson SK, Fridell E, Andersson KE. Fuels for short sea shipping: A comparative assessment with focus on environmental impact. Proceedings of the Institution of Mechanical Engineers, Part M: Journal of Engineering for the Maritime Environment. 2013;228:44–54. [Google Scholar]
- Tsionas I, Stephan A, Llaguno-Munitxa M. Environmental effects of urban wind energy harvesting: a review. B&C. 2025;6. [Google Scholar]
- Curtin J, Mcinerney C, Johannsdottir L. How can financial incentives promote local ownership of onshore wind and solar projects? Case study evidence from Germany, Denmark, the UK and Ontario. Local Economy: The Journal of the Local Economy Policy Unit. 2018;33:40–62. [Google Scholar]
- Malik K, Khondaker AN, Hasan MA, Aina YA, Rahman SM, Abubakar IR. Renewable energy utilization to promote sustainability in GCC countries: policies, drivers, and barriers. Environ Sci Pollut Res. 2019;26:20798–20814. [Google Scholar]
Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.
Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.
Initial download of the metrics may take a while.