Abdur, Rashid and Parag, Biswas and Ahasan Habib, AKM and Zainul Abadin, AFM and Ghosh, Arnob and Motakabber, S. M. A.
(2025)
Review on 6G communication network technology for sustainable renewable energy system: implementations, constraints, and recommendations.
Results in Engineering, 28.
Abstract
A reliable and rapid connection between renewable energy system (RES) equipment and components is essential to ensuring a high-quality power supply as RES’s share of the power system grows as a result of emissions decarbonization and sustainability laws. With the quicker and more consistent data bandwidth offered by 6 G, this assessment offers a thorough understanding of the technology’s potential for accelerating RES. The peer-to- peer (P2P) energy trading market, energy management systems (EMS), transportation networks, wireless energy transfer, smart grids, self-healing batteries, and artificial intelligence (AI) weather forecasting are some of the possible uses of 6 G wireless networks for RES’s quicker data processing. This article enumerates the potential uses, practical implementations, and problems of 6 G in the renewable energy sector. It was discovered that while 6 G is a forward-thinking application in the renewable energy sector that will enhance renewable energy’s security, sensory data processing, integration, and connectivity, 6 G still has several technical drawbacks, such as incompatibility with higher power consumption, older devices, and high operating costs. To strike a balance between advances and constraints, future research should concentrate on improving 6 G in RES in terms of power usage, compatibility difficulties, and cost-effectiveness. The 6 G in the RES sector met several critical limitations requiring intensive development, such as security and privacy issues, being vulnerable to cyber-attacks or data blending, which requires advanced hardware support, and requiring ultra-fast communications with low latency. This article provides a vision for 6 G network technology for the RES sector in the future.
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