A local perspective on renewable energy development in the Russian Arctic

Daria Gritsenko,Hilma Salonen

doi:10.1525/elementa.441

Abstract

Many Arctic communities are exposed to energy security risks. Remote settlements rely largely on diesel for energy production, which results in higher consumer prices, negative impacts on the environment and public health. In the past few years, pilot projects for switching remote villages from diesel-generated to wind- and solar-diesel hybrid power plants were realized across the Arctic. Renewable energy projects have a major potential to alleviate energy security risks, promote public health and better environment. Yet, renewable energy does not take hold easily in the Arctic region. Especially in Russia, significant subsidies for fossil fuel present a major disincentive, as well as perpetuate vested interests of national oil companies. Despite the Russian Arctic being a ‘hard case’ for renewables development, there has been both interest in and progress towards the uptake of renewable energy across the Russian Arctic regions. This article contributes to the ‘local turn’ in sustainable energy policy studies by exploring two intertwined questions: which factors contribute to renewable energy development in the Russian Arctic and how do these factors characterise differences between individual Arctic communities? Using a combination of exploratory factor analysis and correspondence analysis in application to the local level (municipal) data, we update the existing models of the factors contributing to renewable energy uptake and put forward four distinct community-level models that describe renewables uptake. We conclude by emphasizing the importance of the local perspective on sustainable energy as a key to explaining differences in observed policy outcomes.

Highlights

Sustainable energy transition refers to an all-encompassing transformation of the ways how societies produce, use, and value energy (Verbong and Geels, 2007)
We look at how renewable energy (RE) projects across the Russian Arctic group together depending on the community factor scores along the five factors established in our analysis
As the four groupings are prominently separated along both dimensions, which stands for contrasting categories, we suggest that they can be substantively interpreted as community-level models for renewable energy development

Summary

Introduction

Sustainable energy transition refers to an all-encompassing transformation of the ways how societies produce, use, and value energy (Verbong and Geels, 2007). In 2018, 28% of electricity was generated from renewable sources, mostly hydropower, wind, and solar, and the share of RE in global electricity generation is expected to increase to 49% by 2050 (EIA, 2019). While the hydrocarbon riches drive global expectations with regard to Arctic development, many Arctic communities are not connected to the energy grid and use diesel generators to generate energy. Reliance on imported diesel for energy production results in high consumer prices and negative impacts on the environment and public health. Energy vulnerability in these remote communities compromises human wellbeing and disadvantages their economic development (McCauley et al, 2016). Impede, the development of these new RE projects are debated in the sustainable energy literature (Boute, 2016; Poelzer et al, 2016; Mortensen et al, 2017)

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