Trade-offs in German wind energy expansion: building bridges between different interests, values and priorities

Reitz, Sybille; Goshen, Lauren; Ohlhorst, Dörte

doi:10.1186/s13705-022-00365-1

Cited by 12 publications

(4 citation statements)

References 30 publications

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“…This study has limitations that should be considered when interpreting the presented results. We omitted environmental criteria entirely and analyzed the impact of disamenity costs and equality of onshore wind power individually, which in practice have interdependencies and together contribute to community and socio-political acceptance [50]. Generally, disamenity costs are characterized by uncertainty and have a relatively narrow definition in this study by, e.g., not considering the impact of wind turbines on landscape aesthetics.…”

Section: Limitationsmentioning

confidence: 99%

Integration of disamenity costs and equality regarding onshore wind power expansion and distribution into energy system optimization models

Lohr,

Peterssen,

Schlemminger

et al. 2023

Preprint

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Background Social acceptance of energy infrastructure projects impacts public support for the energy transition and is essential for its sustainability and success. Despite extensive research on the social acceptance of renewable energy, particularly onshore wind power, energy system models have primarily emphasized techno-economic aspects. This focus has created a gap between model results and decision-makers’ needs. In this study, we offer recommendations on how to integrate disamenity costs and the consideration of equality in the distribution, two critical social aspects related to onshore wind power, into the optimization of an energy system. Therefore, we use a spatially distributed model of climate-neutral Germany and test various implementations of these two aspects. Results We identify effective linear formulations as model extensions for both aspects, notably outperforming quadratic alternatives, which require longer solution times (+ 50%-115%). Our findings reveal that endogenously considered disamenity costs can reduce the human population’s exposure to wind turbines in model results by -53%. Additionally, by applying the concept of social welfare functions to onshore wind power distribution, we establish a connection with welfare economics, which offers mathematical methods to consider equality in the spatial distribution in energy system models. Conclusion Disamenity costs become a predominant factor in the distribution of onshore wind power in energy system optimization models. However, existing plans for onshore wind power distribution in Germany highlight equality as the driving factor. The inclusion of social aspects into energy system models enables the establishment of socially better-accepted wind turbine locations. Neglecting these aspects results in an overestimation of the practical solution space for decision-makers and, consequently, energy system designs.

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Section: Limitationsmentioning

confidence: 99%

Integration of disamenity costs and equality regarding onshore wind power expansion and distribution into energy system optimization models

Lohr,

Peterssen,

Schlemminger

et al. 2023

Preprint

View full text Add to dashboard Cite

show abstract

“…In addition to the choice of renewable energy technologies and certain locations ( van der Horst, 2007 ), several other factors can have a critical influence on both the socio-political acceptance of technologies and measures and the overall success of the transition process: the actual design of the transformation process (participation, procedural and distributive justice; Heleno et al, 2022 ; Reitz et al, 2022 ), the characteristics and perceptions of a problem ( Wolsink, 2007 ; Beer, 2021 ), and the choice of policy instruments ( Böcher, 2012 ; Barnea et al, 2022 ; Berker and Böcher, 2022 ). Social opposition against renewable energy – concerning local plants or renewable energy technologies and climate protection measures in general – or other innovative technologies can be based on different motives, different values, and conflicting goals ( Baasch, 2021 ; Baasch et al, 2021 ; Berntsen et al, 2021 ; Sovacool et al, 2022 ; Zawadzki et al, 2022 ).…”

Section: Introductionmentioning

confidence: 99%

Nature conservation versus climate protection: a basic conflict of goals regarding the acceptance of climate protection measures?

et al. 2023

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Transformation processes are embedded in a broader discourse on sustainability, climate protection, and biodiversity protection. In this context, possible interindividual conflicts between an interest in nature conservation and efforts to counteract climate change also seem to be relevant. This study focuses on the acceptability of different climate protection measures with possible impacts on landscapes, habitats, and human recreation. Based on a survey of a representative sample (N = 1,427 participants), the impact of conservation-related beliefs on the acceptance of four different climate protection measures was analyzed with respect to possible conflicts with values and norms relevant to climate protection. The study focuses in particular on potential value-based conflicts, as this type of conflict is classified as non-negotiable in negotiation processes and thus represents a particular social challenge. Also, to consider the possible relevance of political orientation and humanity orientation, eight structural equation models were tested. Results showed similar structures for the acceptance of the four climate protection measures. There did not seem to be value-based conflicts between nature conservation and climate protection, as the results showed substantial similarities between nature conservation beliefs grounded in biospheric value orientation (protecting biodiversity) and values and norms relevant for climate protection. Political orientation seemed to be relevant as well, as left-oriented people were more likely to accept the four climate protection measures that were tested. However, the relationship between political orientation and acceptance of the measures was – without exception – mediated by the personal norm.

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“…Spatial and land-use planning play a critical role in identifying suitable areas for renewable energy while considering other sustainability interests [8,9]. But in countries with multi-level governance, this can be a challenging task due to varying interests among stakeholders at different levels, especially in cases involving spatial trade-offs, landscape and wildlife concerns [10][11][12][13][14][15][16][17]. These issues can lead to 'free-riding', causing single states/regions/municipalities to benefit from renewable energy, but not contributing equally, which requires others to invest more and to bear a higher burden [18][19][20].…”

Section: Introductionmentioning

confidence: 99%

“…These issues can lead to 'free-riding', causing single states/regions/municipalities to benefit from renewable energy, but not contributing equally, which requires others to invest more and to bear a higher burden [18][19][20]. Coordination problems can arise between higher national energy policy and lower levels, where the national level prioritizes achieving national development targets, while lower levels focus on the immediate impact to the local area [17].…”

Section: Introductionmentioning

confidence: 99%

Coordination Challenges in Wind Energy Development: Lessons from Cross-Case Positive Planning Approaches to Avoid Multi-Level Governance ‘Free-Riding’

Weber

2023

Land

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Achieving national targets on renewable energy poses several challenges, especially in multi-level governance environments. Incentives and specifications on wind energy development might cause uneven progress or even discrepancies. Therefore, governments have commenced adopting ‘positive planning’ to combine energy targets with spatial and land-use planning. Yet detailed discussions regarding wind energy development remain scarce. In this paper, I explore three explanatory case studies in Germany and Sweden, aiming to provide policymakers and planners with essential knowledge while presenting significant challenges and key lessons learned. Positive planning appears to center on a strong energy target focus, limited space, and a balanced approach, shaped by the sociopolitical context. While Germany has recently embraced positive planning, Sweden started ambitiously but is encountering planning and policy challenges. Planning agencies play a vital role in promoting wind energy targets at mid-scale levels, yet legally binding targets matter. Striking a balance between energy targets and addressing land-use concerns without disregarding them requires managing a delicate trade-off. Early communication and inter-agency collaboration, as seen in Sweden, might facilitate identifying compromises, navigating trade-offs between species protection and renewable energy and offering municipal incentives. Nonetheless, negotiating satisfactory spatial trade-offs for a long-term proof of concept remains a challenge.

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Trade-offs in German wind energy expansion: building bridges between different interests, values and priorities

Cited by 12 publications

References 30 publications

Integration of disamenity costs and equality regarding onshore wind power expansion and distribution into energy system optimization models

Integration of disamenity costs and equality regarding onshore wind power expansion and distribution into energy system optimization models

Nature conservation versus climate protection: a basic conflict of goals regarding the acceptance of climate protection measures?

Coordination Challenges in Wind Energy Development: Lessons from Cross-Case Positive Planning Approaches to Avoid Multi-Level Governance ‘Free-Riding’

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