The enactment of socio-technical transition pathways: a reformulated typology and a comparative multi-level analysis of theGerman and UK low-carbon electricity transitions (1990–2014)

tThis paper aims to make two contributions to the sustainability transitions literature, in particular theGeels and Schot (2007. Res. Policy 36(3), 399) transition pathways typology. First, it reformulates anddifferentiates the typology through the lens of endogenous enactment, identifying the main patternsfor actors, formal institutions, and technologies. Second, it suggests that transitions may shift betweenpathways, depending on struggles over technology deployment and institutions. Both contributions aredemonstrated with a comparative analysis of unfolding low-carbon electricity transitions in Germanyand the UK between 1990–2014. The analysis shows that Germany is on a substitution pathway, enactedby new entrants deploying small-scale renewable electricity technologies (RETs), while the UK is on atransformation pathway, enacted by incumbent actors deploying large-scale RETs. Further analysis showsthat the German transition has recently shifted from a ‘stretch-and-transform’ substitution pathway to a‘fit-and-conform’ pathway, because of a fightback from utilities and altered institutions. It also shows thatthe UK transition moved from moderate to substantial incumbent reorientation, as government policiesbecame stronger. Recent policy changes, however, substantially downscaled UK renewables support,which is likely to shift the transition back to weaker reorientation

Policy mixes for sustainability transitions: an extended concept and framework for analysis

Reaching a better understanding of the policies and politics of transitions presents a main agenda item in the emerging field of sustainability transitions. One important requirement for these transitions, such as the move towards a decarbonized energy system, is the redirection and acceleration of technological change, for which policies play a key role. In this regard, several studies have argued for the need to combine different policy instruments in so-called policy mixes. However, existing policy mix studies often fall short of reflecting the complexity and dynamics of actual policy mixes, the underlying politics and the evaluation of their impacts. In this paper we take a first step towards an extended, interdisciplinary policy mix concept based on a review of the bodies of literature on innovation studies, environmental economics and policy analysis. The concept introduces a clear terminology and consists of the three building blocks elements, policy processes and characteristics, which can be delineated by several dimensions. Based on this, we discuss its application as analytical framework for empirical studies analyzing the impact of the policy mix on technological change. Throughout the paper we illustrate the proposed concept by using the example of the policy mix for fostering the transition of the German energy system to renewable power generation technologies. Finally, we derive policy implications and suggest avenues for future research

An Economic Assessment of Soil Carbon Sequestration with Biochar in Germany

Biochar is a carbon-rich solid obtained from the heating of biomass in the (near) absence of oxygen in a process called pyrolysis. Its soil incorporation is increasingly discussed as a means to sequester carbon in soils and, thus, to help mitigate climate change. When deployed in agricultural soils in Germany, it has been found by Teichmann (2014a, b) that slowpyrolysis biochar from a wide variety of feedstocks - together with the use of the pyrolysis by-products (liquids and gases) as renewable sources of energy - could lead to an annual mitigation of up to 10.2 million tonnes of carbon-dioxide equivalents by 2030 and of up to 10.6 million tonnes by 2050. To analyze whether this technically feasible greenhouse-gas mitigation potential is also economically viable, we calculate the corresponding greenhousegas mitigation costs and construct so-called marginal abatement cost curves. Thereby, we find that about 3.1 million tonnes of carbon-dioxide equivalents could be abated in 2030 at costs below €201245 per tonne of carbon dioxide and nearly 3.8 million tonnes in 2050 at costs below €201275 per tonne of carbon dioxide

Industrial demand flexibility: A German case study

Business opportunities for energy providers to utilize flexible industrial demand are platform-based, connecting small and medium-sized enterprises (SMEs) to a virtual power plant (VPP) in complex ecosystems. Unlike in other VPPs, the focus is on participation, data, and control sovereignty for the SMEs. An exemplary application for an existing cement mill demonstrates positive margins. Viable VPP business models for small and medium-sized utilities include the “orchestrator,” i.e., adding value by linking services of specialized providers, the “integrator,” i.e., incorporating internal and external processes and resources, as well as the “white label user,” i.e., using a turn-key VPP from an exclusive cooperation partner