A Critical Appraisal of Smart Grid Technologies: Contemporary Innovations, Principal Challenges, and Prospective Directions

Abstract

In light of the escalating challenges posed by climate change and the concomitant increase in global energy demand, the imperative to achieve energy efficiency and environmental protection has attained critical importance. Should these challenges remain unaddressed, rapid technological advancements in urban and national infrastructures could precipitate unmanageable levels of energy consumption. A particularly promising remedy to the global energy crisis is the deployment of an advanced bidirectional digital power flow system, characterized by self-healing capabilities, seamless interoperability, robust predictive analytics under uncertain conditions, and fortified cyber defenses against malicious incursions. This smart grid paradigm facilitates the incorporation of renewable energy sources, including solar, wind, and energy storage systems, into the broader power network. Consequently, the perception and evaluative weighting of smart grids by researchers and policymakers assumes paramount importance. This paper presents an exhaustive review of scholarly studies on smart grid systems, delineating their foundational principles, developmental trajectories, operational functionalities, and the distinctive characteristics of the associated technologies. Furthermore, it offers a detailed examination of the communication protocols integral to smart grids, addresses the challenges encountered during their implementation, and outlines potential directions for future research as proposed by various experts.