Can Technology-Specific Deployment Policies Be Cost-Effective? The Case of Renewable Energy Support Schemes

Lehmann, Paul; Söderholm, Patrik

doi:10.1007/s10640-017-0169-9

Cited by 86 publications

(41 citation statements)

References 110 publications

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“…While not a main focus of their paper asking whether policy shifts innovation from fossil fuels to renewable energy, Noailly and Smeets (2015) note that the importance of knowledge stocks in their work could be interpreted as evidence of path dependency. Similarly, while Popp et al (2013) do not explicitly mention path dependency in their analysis of energy patents, Lehmann and Söderholm (2018) interpret the result that successful clean energy innovation depends on a sequence of incremental inventions that build upon one another as evidence of path dependency. As these examples illustrate, studying path dependency for green innovation requires detailed data, so as to distinguish between green and non-green innovation histories.…”

Section: Path Dependencymentioning

confidence: 99%

Environmental Policy and Innovation: A Decade of Research

Popp

2019

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Encouraging innovation is an important part of environmental policy. A large literature in environmental economics examines the links between environmental policy and innovation. This paper reviews recent literature on green innovation. I highlight major trends in the literature, including an increased number of crosscountry studies and a focus on the effect of different policy instruments on innovation. I include a discussion of the justifications and evidence for technology-specific policy incentives and present evidence on the effectiveness of government R&D spending. My review concludes with a discussion of three promising areas for new research on environmental innovation.

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Section: Path Dependencymentioning

confidence: 99%

Environmental Policy and Innovation: A Decade of Research

Popp

2019

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“…A particularly important design issue is whether the policy is technology-specific or technology-neutral, i.e., whether or not it specifies which technologies (or applications) should be supported. The previous research has argued that technology-neutral deployment policies can lead to an early lock-out of promising technologies (Azar and Sandén 2011;Schmidt et al 2016;Lehmann and Söderholm 2018) (see also Sect. 2.1).…”

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confidence: 99%

The innovation effects of renewable energy policies and their interaction: the case of solar photovoltaics

Palage

Lundmark

Söderholm

2018

Environ Econ Policy Stud

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The objective of this paper is to examine the innovation impacts of renewable energy support policies, and their interaction in the empirical context of solar photovoltaics (PV) technology. This is achieved using data on patent applications for 13 countries over the period 1978-2008, and unconditional negative binomial estimators. The analysis addresses one technology-push instrument, public R&D support, and two demand-pull instruments, feed-in tariffs (FIT), and renewable energy certificate (REC) schemes. The results indicate that: (a) both FIT and REC schemes induce solar PV patenting activity, but the impact of the former policy appears to be more profound; (b) public R&D support has overall been more influential than FIT and REC schemes in encouraging solar PV innovation; (c) policy interaction exists in that the impact of public R&D support on innovation is greater at the margin if it is accompanied by the use of FIT schemes for solar PV. A corresponding interaction effect is harder to detect for public R&D support and REC schemes, possibly due to the stronger technology selection pressure under the latter policy. The results following several robustness tests support the existence of a positive interaction effect between public R&D and FIT schemes.

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“…Path dependency creates a market failure only if the costs of shifting from one type of technology to profitable opportunities in another act as a hurdle, preventing adoption of an otherwise more profitable technology (Lehmann and Söderholm 2018). Empirical evidence on path dependency is slim.…”

Section: When Should Policy Target Specific Technologies?mentioning

confidence: 99%

Promoting Clean Energy Innovation at the State and Local Level

Popp

2020

Agric. Resour. Econom. Rev.

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Innovation is an important part of energy policy, and encouraging clean energy innovation is often an explicit goal of policy makers. For local governments, promoting clean energy innovation is seen not only as a pathway to a cleaner economy but also as a tool for promoting the local economy. But is such optimism warranted? There is a substantial literature examining the relationships between innovation and environmental policy, but few studies focus explicitly on innovation at the state and local level. In this paper, I provide key lessons from research on clean energy innovation, focusing on lessons relevant for state and local governments. I then summarize the results of a recent working paper by Fu et al. (2018) that studied wind energy innovation across individual states in the United States. While state-level policies can promote clean energy innovation, it is overall market size that matters most. Thus, innovation need not occur in those states most actively promoting clean energy. I conclude with lessons for state and local governments drawn from both this work and the broader literature on energy innovation.

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Can Technology-Specific Deployment Policies Be Cost-Effective? The Case of Renewable Energy Support Schemes

Cited by 86 publications

References 110 publications

Environmental Policy and Innovation: A Decade of Research

Environmental Policy and Innovation: A Decade of Research

The innovation effects of renewable energy policies and their interaction: the case of solar photovoltaics

Promoting Clean Energy Innovation at the State and Local Level

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