Energies 2023 , 16 , 280
14of 15
References 1. Avtar, R.; Tripathi, S.; Aggarwal, A.K.; Kumar, P. Population–Urbanization–Energy Nexus: A Review. Resources 2019 , 8 , 136. [CrossRef] 2. Sarkodie, S.A.; Owusu, P.A.; Leirvik, T. Global Effect of Urban Sprawl, Industrialization, Trade and Economic Development on Carbon Dioxide Emissions. Environ. Res. Lett. 2020 , 15 , 034049. [CrossRef] 3. IISD. International Institute for Sustainable Development: World Population to Reach 9.9 Billion by 2050 ; International Institute for Sustainable Development: Winnipeg, MB, Canada, 2020. 4. Rabaey, K.; Ragauskas, A.J. Editorial Overview: Energy Biotechnology. Curr. Opin. Biotechnol. 2014 , 27 , v–vi. [CrossRef] [PubMed] 5. Global Monitoring Laboratory; Earth System Research Laboratories. Trends in Atmospheric Carbon Dioxide. 2022. Available online: https://gml.noaa.gov/ccgg/trends/ (accessed on 15 October 2022). 6. Tilman, D.; Balzer, C.; Hill, J.; Befort, B.L. Global Food Demand and the Sustainable Intensification of Agriculture. Proc. Natl. Acad. Sci. USA 2011 , 108 , 20260–20264. [CrossRef] [PubMed] 7. Wang, F.; Harindintwali, J.D.; Yuan, Z.; Wang, M.; Wang, F.; Li, S.; Yin, Z.; Huang, L.; Fu, Y.; Li, L.; et al. Technologies and Perspectives for Achieving Carbon Neutrality. Innovation 2021 , 2 , 100180. [CrossRef] 8. UNFCCC. Adoption of the Paris Agreement ; UNFCCC: Rio de Janeiro, Brazil, 2015. 9. Rogelj, J.; den Elzen, M.; Höhne, N.; Fransen, T.; Fekete, H.; Winkler, H.; Schaeffer, R.; Sha, F.; Riahi, K.; Meinshausen, M. Paris Agreement Climate Proposals Need a Boost to Keep Warming Well below 2 ◦ C. Nature 2016 , 534 , 631–639. [CrossRef] 10. Geng, Y.; Zhu, R.; Maimaituerxun, M. Bibliometric Review of Carbon Neutrality with CiteSpace: Evolution, Trends, and Framework. Environ. Sci. Pollut. Res. 2022 , 29 , 76668–76686. [CrossRef] 11. United Nations. UN and Climate Change ; United Nations: New York, NY, USA, 2022. 12. Ampah, J.D.; Jin, C.; Agyekum, E.B.; Afrane, S.; Geng, Z.; Adun, H.; Yusuf, A.A.; Liu, H.; Bamisile, O. Performance Analysis and Socio-Enviro-Economic Feasibility Study of a New Hybrid Energy System-Based Decarbonization Approach for Coal Mine Sites. Sci. Total Environ. 2023 , 854 , 158820. [CrossRef] [PubMed] 13. Wu, X.; Tian, Z.; Guo, J. A Review of the Theoretical Research and Practical Progress of Carbon Neutrality. Sustain. Oper. Comput. 2022 , 3 , 54–66. [CrossRef] 14. Jin, C.; Sun, T.; Xu, T.; Jiang, X.; Wang, M.; Zhang, Z.; Wu, Y.; Zhang, X.; Liu, H. Influence of Glycerol on Methanol Fuel Characteristics and Engine Combustion Performance. Energies 2022 , 15 , 6585. [CrossRef] 15. Wen, M.; Liu, H.; Cui, Y.; Ming, Z.; Feng, L.; Yao, M. Optical Diagnostics of Methanol Active-Thermal Atmosphere Combustion in Compression Ignition Engine. Fuel 2023 , 332 , 126036. [CrossRef] 16. Jin, C.; Liu, X.; Sun, T.; Ampah, J.D.; Geng, Z.; Ji, J.; Wang, G.; Liu, H. Preparation and Performance Improvement of Methanol and Palm Oil/Palm Kernel Oil Blended Fuel. Fuel Process. Technol. 2021 , 223 , 106996. [CrossRef] 17. Agyekum, E.B.; Nutakor, C.; Agwa, A.M.; Kamel, S. A Critical Review of Renewable Hydrogen Production Methods: Factors Affecting Their Scale-Up and Its Role in Future Energy Generation. Membranes 2022 , 12 , 173. [CrossRef] 18. Holladay, J.D.; Hu, J.; King, D.L.; Wang, Y. An Overview of Hydrogen Production Technologies. Catal. Today 2009 , 139 , 244–260. [CrossRef] 19. Nikolaidis, P.; Poullikkas, A. A Comparative Overview of Hydrogen Production Processes. Renew. Sustain. Energy Rev. 2017 , 67 , 597–611. [CrossRef] 20. Aziz, M.; Wijayanta, A.T.; Nandiyanto, A.B.D. Ammonia as Effective Hydrogen Storage: A Review on Production, Storage and Utilization. Energies 2020 , 13 , 3062. [CrossRef] 21. Chehade, G.; Dincer, I. Progress in Green Ammonia Production as Potential Carbon-Free Fuel. Fuel 2021 , 299 , 120845. [CrossRef] 22. Ghavam, S.; Vahdati, M.; Wilson, I.A.G.; Styring, P. Sustainable Ammonia Production Processes. Front. Energy Res. 2021 , 9 , 580808. [CrossRef] 23. Dalena, F.; Senatore, A.; Marino, A.; Gordano, A.; Basile, M.; Basile, A. Methanol Production and Applications: An Overview. In Methanol ; Elsevier: Amsterdam, The Netherlands, 2018; pp. 3–28, ISBN 978-0-444-63903-5. 24. Roode-Gutzmer, Q.I.; Kaiser, D.; Bertau, M. Renewable Methanol Synthesis. ChemBioEng Rev. 2019 , 6 , 209–236. [CrossRef] 25. Shamsul, N.S.; Kamarudin, S.K.; Rahman, N.A.; Kofli, N.T. An Overview on the Production of Bio-Methanol as Potential Renewable Energy. Renew. Sustain. Energy Rev. 2014 , 33 , 578–588. [CrossRef] 26. IEA. Hydrogen ; IEA: Paris, France, 2022. 27. Atchison, J. IEA’s Latest Global Hydrogen Review Includes Fuel Ammonia ; IEA: Paris, France, 2021. 28. International Energy Agency. The Future of Hydrogen: Seizing Today’s Opportunities ; OECD: Paris, France, 2019; ISBN 978-92-64-41873-8. 29. IRENA. World Energy Transition Outlook 1.5 ◦ CPathway ; IRENA: Bonn, Germany, 2021. 30. Scott, M. Green Hydrogen, The Fuel Of The Future, Set For 50-Fold Expansion. 2020. Available online: https://www.forbes.com/ sites/mikescott/2020/12/14/green-hydrogen-the-fuel-of-the-future-set-for-50-fold-expansion/ (accessed on 7 November 2022). 31. Cho, R. Why We Need Green Hydrogen ; Columbia Climate School: New York, NY, USA, 2021. 32. BloombergNEF. New Energy Outlook 2021 ; Bloomberg New Energy Finance: London, UK, 2021. 33. Energy Transitions Commission (ETC). Making the Hydrogen Economy Possible: Accelerating Clean Hydrogen in an Electrified Economy ; Energy Transitions Commission: London, UK, 2021. 34. Hydrogen Council. Hydrogen for Net Zero. 2021. Available online: https://hydrogencouncil.com/en/hydrogen-for-net-zero/ (accessed on 3 November 2022).
Made with FlippingBook flipbook maker