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Portable Energy Pods Power Mobile Hospitals in Crisis Zones

Honey GaurKalinga University,Department of Civil Engineering,Raipur,IndiaReshma K VVimal Jyothi Engineering College,Department of Electronics & Instrumentation Engineering,Chemperi,Kerala,India,670 632Haider Mohammed AbbasThe Islamic University,College of Technical Engineering,Department of Computer Techniques Engineering,Najaf,IraqOrtikov Elyor AbdumajidovichTuran International University,Faculty of Humanities & Pedagogy,Namangan,UzbekistanS ManikandanKarpagam Institute of Technology,Department of Electrical and Electronics Engineering,Coimbatore,641105B.C ShyleshMangalore Institute of Technology and Engineering,Department of Master of Computer Applications,Moodabidri,IndiaThella Preethi PriyankaSaveetha Institute of Medical and Technical Sciences,Saveetha School of Engineering,Department of Computer Science and Engineering,Chennai,Tamilandu,India,602105
2025
ABI

Annotatsiya

The lack of access to or precarious electricity supply undermines effective functioning of mobile hospitals in disaster-stricken areas and other distant places, where it has a direct effect on the hospital management to provide high-priority healthcare services, such as activation of life-saving medical equipment, especially in light of the lack of light, heating, cooling, and ventilation, as well as diagnostic systems and many other critical healthcare providers. Traditional power sources, such as diesel generators, tend to be unreliable due to issues with fuel supply, transportation challenges, high operational expenses, and ecological concerns. This paper therefore suggests Portable Energy pods that combine renewable sources of energy, which is a hybrid using both solar photovoltaic panels and the little wind turbines that occupy smaller spaces, as well as incorporating a high-capacity energy storage, such as an electric battery, to offer energy sources to the mobile health facilities on a continuous and steady stream of power. The system utilises a high power level of an Energy Management System (EMS) that dynamically controls real-time energy demand, weather conditions, and available energy storage to ensure efficient power distribution and prioritise the most critical hospital loads. Comprehensive simulations and experimental confirmations demonstrate that the Portable Energy Pods will be capable of maintaining stable voltage and power output even in changing environmental conditions, ensuring the continuous operation of essential medical equipment. The suggested solution will not only contribute to operational resilience in the event of emergencies but also enhance overall system stability. Still, it will also decrease reliance on fossil fuels, mitigate carbon emissions, and provide a portable and scalable solution applicable to a wide range of crisis settings. Findings indicate that when mobile hospitals are equipped with these pods, they remain functional even during emergencies, effectively addressing a downturn in energy availability and providing healthcare capacity solutions. This solution offers a feasible, ecologically sustainable, and technologically sound framework that considers the responsiveness, efficiency, and safety of mobile healthcare services in disasters and remote regions to a large extent, thereby providing a life-saving intervention where it is most needed.

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