Engaging in disruption: A review of emerging microgrids in Victoria, Australia

Growing global consensus around the pressing need for decarbonisation to avert uncertain climate futures has accelerated the transition away from fossil fuels, towards widespread experimentation with distributed energy systems and practices. An investigation of four different microgrid-related exper...

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Veröffentlicht in:Renewable & sustainable energy reviews 2020-01, Vol.117, p.109491, Article 109491
Hauptverfasser: Farrelly, M.A., Tawfik, S.
Format: Artikel
Sprache:eng
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Zusammenfassung:Growing global consensus around the pressing need for decarbonisation to avert uncertain climate futures has accelerated the transition away from fossil fuels, towards widespread experimentation with distributed energy systems and practices. An investigation of four different microgrid-related experiments in Victoria, Australia revealed a number of commonalities and differences in relation to the drivers and challenges that supported and constrained these innovative projects. Despite differences in the types of microgrid projects examined, the case studies presented similar internal challenges, particularly in relation to organisational and individual risk aversion. External challenges arising from the broader regime were also present, particularly in relation to securing regulatory approvals, limitations in workforce capacity, and lack of industry acceptance. The empirical data suggests that the majority of challenges identified speak to the socio-institutional context rather than technological feasibility. Drawing on niche management framings, seven critical strategies for policy development aimed at shielding, nurturing and empowering future microgrid projects to move beyond experimentation and achieve more widespread decarbonisation are presented. •Microgrid trials across Australia are challenging conventional modes of energy production, distribution and consumption.•Need for greater orchestration and knowledge sharing across disjointed experiments.•Seven process-related factors revealed relating to expediting future replication.
ISSN:1364-0321
1879-0690
DOI:10.1016/j.rser.2019.109491