Abstract
The importance of energy storage is increasing to enhance the efficiency of energy grids and integrate renewable energy sources. This is particularly relevant for micro-communities that rely on decentralized energy sources and grids for part of their energy supply. Examples of such communities include internally settled electricity communities (ECs) and eco-industrial parks (EIPs). EIPs are industrial sites that operate according to the principles of industrial symbiosis (IS), prioritizing resource management and environmental stewardship by optimizing material and energy exchange networks.
Industrial parks structured along the principles of industrial symbiosis often depend on renewable energy sources. Energy storage stabilizes renewable energy production and ensures the flexibility of energy supply. Energy storage enables ECs and EIPs to operate more energy-efficiently, facilitates the asynchronous mitigation of demand and capacity, reduces peak-period consumption and can also serve as a backup power source during emergencies.
The aim of this article is to present an overview of the role and significance of energy storage in energy-communities and EIPs, underscore the potential for self-consumption of locally generated renewable energy, optimize the utilization of exchange connections, and provide an analysis of international research and industrial practices in this field. The literature review in this paper shows that energy storage and battery management play a key role in the optimal operation of ECs and in maximizing self-consumption, i.e. minimizing the load on the grid, and therefore minimizing the grid-wide sustainability effects.
