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Renewable Energy-Driven Smart Logistics Systems: Conceptual Model, Strategic and Feasibility Analysis
Abstract
This study examines the strategic integration of renewable energy sources into smart logistics systems to enhance operational efficiency and environmental sustainability. Based on a comprehensive literature review, it develops a conceptual model linking technological components of smart logistics, such as IoT, cyber-physical systems, cloud platforms, and decision-support mechanisms, with renewable energy solutions including solar, wind, hydropower, bioenergy, hydrogen, and geothermal energy. The study qualitatively analyzes energy–technology alignment and evaluates sustainability outcomes such as carbon emission reduction, energy cost optimization, and socio-economic benefits. A SWOT analysis and a feasibility assessment address strategic and practical considerations, while a set of hypotheses is proposed for future empirical testing. The findings highlight the need for digital–energy synergy, supportive infrastructure, and strategic policy frameworks to unlock the full potential of renewable energy-powered smart logistics.
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