Balancing wind power deployment and sustainability objectives in Swedish planning and permitting

Wretling, Vincent; Balfors, Berit; Mörtberg, Ulla

doi:10.1186/s13705-022-00376-y

Cited by 6 publications

(3 citation statements)

References 45 publications

(60 reference statements)

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“…SVM tries to find an optimal hyperplane that classifies the fault data from normal data based on margin maximization, resulting in the formation of the following optimization problem. (2) subject to the condition 𝑦 𝑗 ((𝑤. 𝜎(𝑥 𝑗 )) + 𝑏) > 1 − 𝜖 𝑗 (3) 𝜖 𝑗 ≥ 0, 𝑖 = 1,2, … . 𝑛 (4) where "w" and "b" are the normal support vector and offset Value that correspond to the separating hyperplane.…”

Section: Abc -Svm Algorithmmentioning

confidence: 99%

“…In recent years, the gradual depletion of fossil fuels and their environmental impact, as proposed by Tao Li [1], have led to a manifold increase in research efforts towards Renewable Energy Sources (RES) like Wind Energy Systems (WES), Photovoltaic Systems (PV), etc. Among the various RES systems, as proposed by Haas [2] and Wretling [3] -WES is considered an alternative to traditional fossil-based energy generation because of its clean nature and efficiency, and is gradually replacing fossil-based power sources. WES in general, Wind Turbines (WT) are thus gaining importance in recent days as the world is recognizing their significance in attaining the Paris Agreement's goal of limiting global warming to 1.5 degrees Celsius by 2100 [4].…”

Section: Introductionmentioning

confidence: 99%

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An ABC-SVM based Fault Prognosis of Wind Turbines using SCADA Data

L V,

2024

Scientia Iranica

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In modern world, Fault prognosis play an essential role in the safe and reliable operation of wind turbines (WT). An efficient fault prognosis method will help in the earlier identification of WT faults and failures, thereby reducing WT maintenance costs and improving their operating time. WT's are often controlled by Supervisory Control and Data Acquisition (SCADA), which, apart from controlling, provides very rich data pertaining to WT's working parameters which could be used for fault prognosis of WT's. Most of the WT prognosis systems make use of Support Vector Machines (SVMs) in conjunction with SCADA data to predetermine the faults that might occur in the turbines in the near future. In these models, proper selection of SVM parameters is essential for precise fault classification. In this work, an optimised methodology using Artificial Bee Colony Optimisation (ABC) is proposed to find an optimal penalty factor and kernel function parameter that guarantees better classification accuracy for the SVM model. Based on the real time SCADA data availed from a wind farm, it is observed that the proposed ABC-SVM fault prognosis model has a quick convergence rate and good accuracy compared to the other GA-SVM, PSO-SVM, and ACO-SVM based models.

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Section: Abc -Svm Algorithmmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

An ABC-SVM based Fault Prognosis of Wind Turbines using SCADA Data

L V,

2024

Scientia Iranica

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“…Recent policy changes in multi-level governance environments have led to three prominent cases, including offshore wind energy planning in the German North and Baltic Seas, which aims to install 40 GW of energy by 2030 through quantity-based area planning [53]. The Swedish approach to onshore wind energy involves a National Wind Energy Strategy that sets a goal of installing 80 TWh across the country and delegating high-level energy policies down to the municipal level [25,47,54]. Meanwhile, in Germany, onshore wind energy planning has implemented sectoral law featuring state-specific spatial targets and a spatial steering impetus to meet these goals for regional and municipal levels ( §1 (2) WindBG).…”

Section: Background and Challenges In Spatial And Land-use Planningmentioning

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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