Session
Energy Efficiency Engineering
Description
The transition to cleaner energy sources is essential for decarbonizing smart grids, with solar and wind energy playing pivotal roles in this process. This study investigates the integration of solar and wind energy into smart grids, focusing on optimizing performance and stability. Key aspects explored include the management of fluctuating renewable supply in relation to energy demand, peak load management, and base load requirements. The research examines advanced energy management strategies designed to address challenges such as intermittency and supply-demand variability. By analyzing recent technological advancements in solar and wind energy and their interactions with smart grid infrastructure, this study provides actionable insights into enhancing grid resilience and supporting a low-carbon energy future. Key findings highlight the effectiveness of integrated renewable energy systems in improving grid stability and performance. The results offer practical guidance for optimizing smart grid operations and achieving decarbonization objectives.
Keywords:
Solar Energy, Wind Energy, Smart Grids, Decarbonization, Energy Management
Proceedings Editor
Edmond Hajrizi
ISBN
978-9951-982-15-3
Location
UBT Kampus, Lipjan
Start Date
25-10-2024 9:00 AM
End Date
27-10-2024 6:00 PM
DOI
10.33107/ubt-ic.2024.190
Recommended Citation
Bislimi, Agron and Spahiu, Shkodran, "Decarbonizing through Solar and Wind Energy Integration: Optimizing Performance and Stability" (2024). UBT International Conference. 2.
https://knowledgecenter.ubt-uni.net/conference/2024UBTIC/EEE/2
Included in
Decarbonizing through Solar and Wind Energy Integration: Optimizing Performance and Stability
UBT Kampus, Lipjan
The transition to cleaner energy sources is essential for decarbonizing smart grids, with solar and wind energy playing pivotal roles in this process. This study investigates the integration of solar and wind energy into smart grids, focusing on optimizing performance and stability. Key aspects explored include the management of fluctuating renewable supply in relation to energy demand, peak load management, and base load requirements. The research examines advanced energy management strategies designed to address challenges such as intermittency and supply-demand variability. By analyzing recent technological advancements in solar and wind energy and their interactions with smart grid infrastructure, this study provides actionable insights into enhancing grid resilience and supporting a low-carbon energy future. Key findings highlight the effectiveness of integrated renewable energy systems in improving grid stability and performance. The results offer practical guidance for optimizing smart grid operations and achieving decarbonization objectives.