A comprehensive survey of flexibility options for supporting the low-carbon energy future

As a result of the increased awareness of the dangers posed by global climate changes (mainly caused by growing global energy consumption needs), the quest for clean and sustainable energy future is becoming of paramount importance. This can be largely realized via a large-scale integration of varia...

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Bibliographic Details
Published in:Renewable & sustainable energy reviews 2018-12, Vol.97 (C), p.338-353
Main Authors: Cruz, Marco R.M., Fitiwi, Desta Z., Santos, Sérgio F., Catalão, João P.S.
Format: Article
Language:English
Subjects:
Flexibility
Power systems
Renewable energy sources
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Summary:As a result of the increased awareness of the dangers posed by global climate changes (mainly caused by growing global energy consumption needs), the quest for clean and sustainable energy future is becoming of paramount importance. This can be largely realized via a large-scale integration of variable renewable energy sources (RESs) such as wind and solar, which have relatively low carbon footprints. In many power systems, the level of integration of such resources is dramatically increasing. However, their intermittent nature poses significant challenges in the predominantly conventional power systems that currently exist. Among others, frequency and voltage regulation issues can, for example, arise because of improperly balanced and largely uncoordinated RES supply and demand. Generally, the higher the integration level of intermittent power sources is, the higher the flexibility needs are in the system under consideration. Flexibility, in a power systems context, refers to the ability of such a system to effectively cope with unforeseen changes in operational situations, which are mainly induced by the inherent uncertainty and variability arising from the supply side, demand side or any other external factors. In the absence of appropriate flexibility mechanisms, it is increasingly difficult to manage the imbalances between generation and demand as a result of their natural variations in real-time. This paper presents an extensive and critical review of the main existing and emerging flexibility options that can be deployed in power systems to support the integration of “carbon-free” and variable power production technologies. Starting from a broader definition of flexibility, we highlight the growing importance of such flexibility in renewable-rich energy systems, and provide insights into the challenges and opportunities associated with various flexibility options provided by different technologies. •This paper presents an extensive and critical review of the main existing and emerging flexibility options.•Starting from a broader definition of flexibility, we highlight the growing importance of such flexibility.•Insights into the challenges and opportunities associated with various flexibility options are provided.•Certain barriers that may hinder their developments in the short to medium terms are also provided.
ISSN:1364-0321
1879-0690
DOI:10.1016/j.rser.2018.08.028