The transition to a low-carbon energy system is conditioned by the successful integration of highly variable, yet advanced, renewable energy sources (RES). This paper analyzes the transformative synergy between the next generation of RES, the increasing capacity of Battery Energy Storage Systems (BESS), and the development of intelligent electricity networks (Smart Grids). We focus on how the deployment of distributed BESS and centralized storage solutions not only stabilizes fluctuations in generation from advanced solar and wind sources but also provides critical network services, such as frequency regulation and optimized power flow. We examine the role of Smart Grids, which serve as the digital backbone enabling two-way communication, predictive load management, and efficient resource allocation in real-time. The paper presents a quantitative analysis of the impact of these three technologies on reducing operational costs, minimizing transmission capacity losses, and accelerating decarbonization. In conclusion, we emphasize the regulatory and investment reforms necessary to fully utilize the potential of these technologies, demonstrating that their synergy is essential for creating a resilient, flexible, and fully decarbonized energy infrastructure of the future.
Šimčák et al. (Thu,) studied this question.