Assessing learning in low carbon technologies: Toward a more comprehensive approach

With decades of experience developing and deploying low carbon technologies around the world, much has been learned. We assess six categories that represent the diversity of methodological approaches that have been used to study low carbon learning: (1) learning curves; (2) expert elicitations; (3)...

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Bibliographic Details
Published in:Wiley interdisciplinary reviews. Climate change 2021-09, Vol.12 (5), p.e730-n/a
Main Authors: Lewis, Joanna I., Nemet, Gregory F.
Format: Article
Language:English
Subjects:
Carbon
Clean technology
climate change
Climate change mitigation
Developing countries
innovation
LDCs
learning
Learning curves
low carbon technologies
methods
Political factors
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Summary:With decades of experience developing and deploying low carbon technologies around the world, much has been learned. We assess six categories that represent the diversity of methodological approaches that have been used to study low carbon learning: (1) learning curves; (2) expert elicitations; (3) patent analysis; (4) engineeringā€based decomposition; (5) policy intervention studies; and (6) case studies. Based on a review of low carbon learning studies in these six areas, we summarize what we know about low carbon learning, and what we have yet to fully understand, including the methodological strengths and limitations of key studies conducted to date. We find that a more comprehensive understanding of low carbon learning is necessary and timely given the massive scale and short time horizon of the low carbon transition, and that there are real benefits to employing a comprehensive approach using multiple methods. We find a need for better data sets, and for studies of a more diverse set of technologies, as well as of interactions among technologies. In addition, studies should be more explicit about local context, with a particular need for additional focus on emerging and developing countries. We identify key topics that warrant further research, including technology specific learning methods; spatial distinctions and the local and global linkages that influence learning; and an expanded study of the cultural, social, environmental, and political factors that influence learning. Finally, we recommend more nuance in the design of policies directed at accelerating low carbon learning. This article is categorized under: The Carbon Economy and Climate Mitigation > Future of Global Energy A more comprehensive understanding of low carbon learning requires the integration of findings from studies using multiple methodologies which go beyond traditional learning curves, as illustrated here, and incorporates the broader learning context, as well as technology specific and location specific learning factors.
ISSN:1757-7780
1757-7799
DOI:10.1002/wcc.730