Implications of 5G Technology in the Management of Power Microgrids: A Review of the Literature

Author:

Taveras Cruz Armando J.1,Aybar-Mejía Miguel1ORCID,Díaz Roque Yobany1ORCID,Coste Ramírez Karla1,Durán José Gabriel1ORCID,Rosario Weeks Dinelson1,Mariano-Hernández Deyslen1ORCID,Hernández-Callejo Luis2ORCID

Affiliation:

1. Engineering Area, Instituto Tecnológico de Santo Domingo, Santo Domingo 10602, Dominican Republic

2. Department of Agricultural Engineering and Forestry, Duques de Soria University Campus, University of Valladolid, 42004 Soria, Spain

Abstract

Microgrids have a lot to offer, including helping smart grids operate on distribution grids or bringing electricity to some cities. The management system receives and transmits different states. This is because the elements adapt to the conditions of the network in the shortest possible time. The 5G communication technology has high transmission speed, owing to which it can improve equipment connectivity and reduce latency, allowing the real-time analysis and monitoring of electrical microgrids considerably better than earlier generations. In addition, it is estimated that, in the near future, many cities will be connected using communication systems that allow the interconnection of different systems safeguarding the connectivity, speed, and response time of these elements in an electrical system, smart grid, or microgrids with the growing development of the Internet of Things. For this reason, it is essential to analyze the integration of 5G technology to improve the management of microgrids. This literature review analyzes and presents the advantages of using 5G technologies in reducing communication latency and improving connectivity to enhance microgrids’ control and management. The active implementation of 5G in the management and control of microgrids increases the transmission and reception of data and states, reduces latency, and allows for a greater density of information, collaborating positively with resilience to the various changes that microgrids can suffer in continuous working conditions. The implementation of 5G allows electrical microgrids to be more resilient in their management and control, directly and indirectly impacting the sustainable development goals.

Funder

Fondocyt

Publisher

MDPI AG

Subject

Energy (miscellaneous),Energy Engineering and Power Technology,Renewable Energy, Sustainability and the Environment,Electrical and Electronic Engineering,Control and Optimization,Engineering (miscellaneous),Building and Construction

Reference90 articles.

1. Optimal operation of electrical and thermal resources in microgrids with energy hubs considering uncertainties;Shams;Energy,2019

2. A two-stage stochastic programming approach for reliability constrained power system expansion planning;Peker;J. Electr. Power Energy Syst.,2018

3. Visión General, Características y Funcionalidades de la Red Eléctrica Inteligente (Smart Grid);Rivas;Inf. Tecnol.,2018

4. Villada Sandoval, P.A. (2020). Diseño y Simulación de una Micro-Red Eléctrica Aislada Basada en el Uso de Fuentes de Energía Renovable, Universidad Santo Tomás.

5. Tecnología móvil 5G;Mare Ingenii,2019

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