Local energy transition in Russia: a multi-actor perspective on the case of Yakutia

2022 ◽  
pp. 1-22
Author(s):  
Daria Gritsenko
2019 ◽  
Vol 29 (1) ◽  
pp. 123-146 ◽  
Author(s):  
Benjamin Schmid ◽  
Thomas Meister ◽  
Britta Klagge ◽  
Irmi Seidl

Participation of citizens in local energy decisions is increasingly recognized as helpful for a successful decentralized energy transition. In this article, we focus on energy cooperatives in which private individuals jointly develop facilities to generate energy from renewable sources, thus involving citizens both politically and economically. Focusing on Switzerland and Germany, we show that there is a strong linkage between such cooperatives and municipalities, characterized by collaboration and support, and that the cooperatives are well suited as collaborating partners. We also show that federalist structures are most suited for such local arrangements as municipalities must have leeway to support cooperatives in a targeted manner and to compensate for shortcomings in the energy policy of superordinate governmental levels. Based on these results, we suggest that local governments should be given sufficient financial capacities and autonomy to strengthen implementation of a decentralized energy transition that involves citizens. However, we also recognize that municipal structures alone are often insufficient and that superordinate policies, especially national subsidies, remain essential. Hence, policies at the municipal and national levels should take greater account of citizen initiatives, such as energy cooperatives, which exhibit various noncommodifiable advantages relevant to the energy transition.


2021 ◽  
pp. 113-134
Author(s):  
Clemens van Dinther ◽  
Christoph M. Flath ◽  
Johannes Gaerttner ◽  
Julian Huber ◽  
Esther Mengelkamp ◽  
...  

AbstractSince the beginning of the energy sector liberalization, the design of energy markets has become a prominent field of research. Markets nowadays facilitate efficient resource allocation in many fields of energy system operation, such as plant dispatch, control reserve provisioning, delimitation of related carbon emissions, grid congestion management, and, more recently, smart grid concepts and local energy trading. Therefore, good market designs play an important role in enabling the energy transition toward a more sustainable energy supply for all. In this chapter, we retrace how market engineering shaped the development of energy markets and how the research focus shifted from national wholesale markets to more decentralized and location-sensitive concepts.


2018 ◽  
Vol 10 (8) ◽  
pp. 2602 ◽  
Author(s):  
Geertje Bekebrede ◽  
Ellen van Bueren ◽  
Ivo Wenzler

The depletion of fossil fuel sources for our energy system and the influence on overall CO2 emissions drive the need to more sustainable energy systems. The transition towards a renewable energy system cannot be seen as a purely technical issue; it is strongly embedded within society. In this study, we analyze the stakeholder complexities of the transition in urban districts and research the use of a simulation game to increase the understanding of the complexity of the transition. Surveys and observations were used to collect data about the learning experiences of playing the game GO2Zero. The results show that participants liked to play the game and they considered the game a valid representation of the system. Further, the participants agree that they obtained a better understanding of the complexity of the residential energy system and experienced a variety of challenges in the transition. Simulation games, like GO2Zero, could become valuable instruments in local energy transition processes as they offer a safe environment for novices and experts to jointly experiment with the challenges in this process. These experiences could support the design of the transition process by helping actors to formulate goals and collaborative strategies for achieving those goals. Future research will focus on the use of this game for experimenting with different strategies and instruments and to analyze their effects.


2018 ◽  
Vol 10 (11) ◽  
pp. 3905 ◽  
Author(s):  
Sujeetha Selvakkumaran ◽  
Erik Ahlgren

Co-creation in the societal sphere is becoming important in many parts of the world. However, empirical analysis of co-creation in local energy transitions has been understudied. This paper aims to contribute to the field of local energy transitions by integrating a model-based approach with the municipal co-creation efforts in a local energy transition setting. The study uses a mixed-methods approach, with both quantitative and qualitative methods underpinning the approach. A System Dynamics (SD) model is built to analyse the feedback loops created by the co-creation efforts of the municipalities in Skåne, Sweden to increase the uptake of household solar photovoltaics. Simultaneously, the model is conceptualized and built in coordination with the municipality actors, and qualitative validation provided by them. An iterative process is implemented, consisting of three steps: interaction with the municipality actors (MAs), developing the causal relationships between the model variables and model development. The suggestions and discussions with the MAs were very useful in understanding the social factors and processes which help in the diffusion of a technologically innovative product, such as solar PV. The MAs said that they found the explanation of the modelling variables useful in undertaking the co-creation efforts.


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