Exploring the Role of Hybrid Energy Systems for Enhancing Green Energy Potential in Urban Areas
- 1Center Of Excellence in Weather & Climate Analytics, Atmospheric Sciences Research Center (ASRC), University at Albany (UAlbany), State University of New York (SUNY), New York, USA.
- 2Amity Institute of Geoinformatics & Remote Sensing (AIGIRS), Amity University Uttar Pradesh (AUUP), Uttar Pradesh, India
Hybrid energy systems for improving sustainable urban energy attempt to combine energy supply, public transport modernization, and residential/commercial energy demand reduction. Due to reduced nonrenewable resources, alternative and augmented energy sources are required everywhere. The development of science and industry has increased the energy required to achieve environmental goals with reduced gas emissions. Solar and wind energy are cleaner, more efficient alternatives to polluting energy sources, so the attention is now on large-scale hybrid energy systems. Lots of attempts have been made to show technological advancement and research has analyzed the functionality of energy systems, but urban applications have received little attention. The proposed work imitates the feasibility analysis of hybrid urban energy systems. The research acknowledged the development of research purpose, methodology, research, and data collection approach to reporting the technological, scientific, and industrial developments. This research explains a typical urban environment to determine the hourly load profile for any urban region to exhibit the role of a hybrid energy system to raise energy potential. It summarizes past, present, and future trends in energy system design, development, and implementation. The design can be enlarged to implementations with several other combinations to provide cleaner and cheaper energy.
How to cite: Kumar, D. and Bassill, N. P.: Exploring the Role of Hybrid Energy Systems for Enhancing Green Energy Potential in Urban Areas, EGU General Assembly 2023, Vienna, Austria, 24–28 Apr 2023, EGU23-17225, https://doi.org/10.5194/egusphere-egu23-17225, 2023.