Can complex systems be applied to energy systems?

We have shown that the characteristics of complex systems that have been identified in the development of complexity theory, including agents interacting in networks, path dependency of change, emergence of system properties, and resilience and adaptability of systems, can be applied to energy systems.

Can complex systems be incorporated into large scale energy system modelling?

Thus, incorporating characteristics of complex systems into large scale energy system modelling could provide useful insights for decision makers into the implementation bottlenecks associated with uncertainty, actor heterogeneity and market imperfections that are not addressed in existing models.

Can complexity theory be used to solve energy challenges?

Complexity theory has started to contribute to our understanding of energy systems, but there is certainly scope, and need, for its advantages to be exploited further in tackling the energy challenges we face.

What are energy systems?

Energy systems consist of technologies, institutions, business strategies, user practices and ecosystems that mutually coevolve. For example, new technologies may bring the need for new business models, policy and regulation. Consumer behaviour may bring demand for new technologies, or conversely technologies may change consumer behaviour

Does complexity science apply to energy systems?

The paper discusses the aspects of energy systems (in terms of technologies, ecosystems, users, institutions, business models) that lend themselves to the application of complexity science and its characteristics of emergence and coevolution.

Can complex systems thinking and modelling be useful in understanding energy systems?

This paper aims to set out the ways in which complex systems thinking and modelling could be useful in understanding the complexity of energy systems and how these systems change, in order to address current and future policy challenges.