Enhancing Disaster Resilience in Mérida: A Focus on Hybrid Energy Storage Systems
Key Ideas
  • Mérida, located in the Yucatán Peninsula, faces high disaster risk due to hurricanes. Implementing a PV system with specific storage ensures power supply during disasters.
  • Hybrid energy storage systems (HESS) combining PEMFC and supercapacitors (SC) offer steady power supply and manage fluctuating energy demands effectively.
  • Energy Management Systems (EMS) play a crucial role in maximizing energy use and efficiency in hybrid storage systems, especially in grid-connected setups with hydrogen-based storage.
  • HESS with SC and hydrogen maximize daily energy generation from PV systems, ensuring energy availability during nighttime and in the face of natural disasters like tropical storms.
The article discusses the importance of enhancing disaster resilience in Mérida, Mexico, specifically focusing on the implementation of hybrid energy storage systems (HESS) to ensure uninterrupted power supply during natural disasters, particularly hurricanes. Mérida, a region with a high degree of vulnerability to hurricanes, faces challenges in maintaining energy supply during extreme weather conditions. The article highlights the benefits of integrating energy storage devices like supercapacitors (SC) and hydrogen-based systems to address power fluctuations and ensure efficient energy management. It emphasizes the role of PEMFC (Proton Exchange Membrane Fuel Cell) in providing steady power while energy storage devices manage transient power demands. The article also underscores the significance of Energy Management Systems (EMS) in optimizing the performance of hybrid storage systems, especially in grid-connected setups with hydrogen storage. By balancing power production and demand, EMS aims to minimize hydrogen consumption, optimize system efficiency, and reduce operational costs. The integration of HESS in PV systems allows for maximizing daily energy generation, storing surplus energy for nighttime use, and ensuring energy availability during natural disasters when solar resources are limited. Overall, the article promotes the implementation of grid-connected PV systems with HESS and specific EMS in Mérida to enhance disaster resilience, ensure continuous energy supply, and improve emergency preparedness. By leveraging renewable energy sources and advanced storage technologies, Mérida can strengthen its energy infrastructure and better cope with the challenges posed by extreme weather events, ultimately ensuring the availability of essential services and support during disasters.
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