Demand Side Management of Electric Vehicles in Smart Grids: A survey on strategies, challenges, modeling, and optimization

The shift of transportation technology from internal combustion engine (ICE) based vehicles to electricvehicles (EVs) in recent times due to their lower emissions, fuel costs, and greater efficiency hasbrought EV technology to the forefront of the electric power distribution systems due to theirability to interact with the grid through vehicle-to-grid (V2G) infrastructure. The greater adoptionof EVs presents an ideal use-case scenario of EVs acting as power dispatch, storage, and ancillaryservice-providing units. This EV aspect can be utilized more in the current smart grid (SG) scenarioby incorporating demand-side management (DSM) through EV integration. The integration of EVswith DSM techniques is hurdled with various issues and challenges addressed throughout thisliterature review. The various research conducted on EV-DSM programs has been surveyed. This reviewarticle focuses on the issues, solutions, and challenges, with suggestions on modeling the charginginfrastructure to suit DSM applications, and optimization aspects of EV-DSM are addressed separatelyto enhance the EV-DSM operation. Gaps in current research and possible research directions have beendiscussed extensively to present a comprehensive insight into the current status of DSM programsemployed with EV integration. This extensive review of EV-DSM will facilitate all the researchersto initiate research for superior and efficient energy management and EV scheduling strategies andmitigate the issues faced by system uncertainty modeling, variations, and constraints

An insight into the integration of distributed energy resources and energy storage systems with smart distribution networks using demand-side management

Demand-side management (DSM) is a significant component of the smart grid. DSM without sufficient generation capabilities cannot be realized; taking that concern into account, the integration of distributed energy resources (solar, wind, waste-to-energy, EV, or storage systems) has brought effective transformation and challenges to the smart grid. In this review article, it is noted that to overcome these issues, it is crucial to analyze demand-side management from the generation point of view in considering various operational constraints and objectives and identifying multiple factors that affect better planning, scheduling, and management. In this paper, gaps in the research and possible prospects are discussed briefly to provide a proper insight into the current implementation of DSM using distributed energy resources and storage. With the expectation of an increase in the adoption of various types of distributed generation, it is estimated that DSM operations can offer a valuable opportunity for customers and utility aggregators to become active participants in the scheduling, dispatch, and market-oriented trading of energy. This review of DSM will help develop better energy management strategies and reduce system uncertainties, variations, and constraints

A comprehensive review on demand side management and market design for renewable energy support and integration

The traditional power system is facing significant transformations due to the integration of emerging technologies, renewable energy sources (RES), and storage devices. This review focuses on the shift from centralized to decentralized control, enhancing flexibility for stakeholders, and the challenges it entails. The paper identifies the problem of limited adaptability in traditional power systems, which restricts stakeholder flexibility and renewable energy source integration. To address this, the paper proposes a transition to a decentralized system. It explores the effects of power system privatization and restructuring, fostering a competitive market across generation, transmission, and distribution levels. It discusses how integrating distributed generations (DGs) and demand-side management (DSM) with ICT protocols can enhance power system control and management efficiency and reliability. The review delves into the challenges of deregulated electricity market (DEM), especially integrating new generation sources and promoting prosumer participation. It proposes leveraging DSM to manage supply–demand variability and support renewable generation integration in distribution sectors. It also discusses the necessity for renewable power producers to develop effective market bidding strategies. The review concludes with key findings and future research directions, providing an overview of the evolving energy market’s trajectory. It aims to inform sustainable and efficient power system discourse and future policy and decision-making