Abstract
While North-South technology transfer and cooperation (NSTT) for low carbon energy technology has been implemented for decades, South-South technology transfer and cooperation (SSTT) and South-North technology transfer and cooperation (SNTT) have only recently emerged. Consequently, the body of literature on NSTT is mature, while the body on SSTT and SNTT is still in its infancy. This paper provides a meta-synthesis of the scholarly writings on NSTT, SSTT and SNTT from the past 30 years. We specifically discuss core drivers and inhibitors of technology transfer and cooperation, outcomes as well as outcome determinants. We find policies and practices for low carbon development to be the main driver, both pushed by governments and international aid programs, as well as by firms that are interested in expanding overseas. Inhibitors include a non-existent market in the host countries and the abundance of cheap fossil fuel resources that price out renewables. The literature is divided on whether intellectual property rights are inhibitors or drivers of technology transfer to the Global South. Outcomes of technology transfer and cooperation are mixed with approximately one-third of instances reported as successful technology transfer and another one-third reported as failures. Core key success factors were identified as suitable government policies as well as adequate capacities in the recipient country. This analysis is then followed by an introduction of the papers of the special issue 'South-South Technology Transfer and Cooperation for Low Carbon Energy Technologies’. Finally, a research agenda for future work on NSTT, SSTT and SNTT is proposed.
Highlights
Global energy consumption is growing at a rapid pace
The aim of this paper is to provide a synthesis of the scholarly literature on technology transfer and cooperation for low carbon energy technologies
We focus on solar PV, wind and hydropower as the three main sources of low carbon energy that are technologically mature and widely commercialised (Urban, 2018; Urban et al, 2015a)
Summary
Global energy consumption is growing at a rapid pace. It may increase from about 13,650 Million tonnes of oil equivalent (Mtoe) in 2015 by nearly 30% to about 17,750 Mtoe in 2040 (EIA, 2017; IEA, 2017). Especially natural gas and oil, are and will continue to be the primary energy sources to power these economies (IEE, 2016) This development will create carbon lock-in, i. E. make countries dependent on fossil-fuel based energy systems (Unruh, 2000) After all, assets such as natural gas plants or coal-fired power plants “cannot be [...] understood as a set of discrete technological artefacts, but have to be seen as complex systems of technologies embedded in a powerful conditioning social context of public and private institutions” We introduce the special issue 'South-South Technology Transfer and Cooperation for Low Carbon Energy Technologies’ which was edited by the two authors of this paper. The last section of this paper summarizes our argument and proposes potential lines for future research
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