Prove the circularity of your decommissioning strategy
Map material flows, quantify recycling rates, and identify critical raw materials across your wind portfolio — with data that satisfies regulators and stakeholders.
Prove the circularity of your decommissioning strategy
Map material flows, quantify recycling rates, and identify critical raw materials across your wind portfolio — with data that satisfies regulators and stakeholders.
Prove the circularity of your decommissioning strategy
Map material flows, quantify recycling rates, and identify critical raw materials across your wind portfolio — with data that satisfies regulators and stakeholders.
95%
demonstrable circularity rate
400+
turbine models analyzed
CSRD
show material inflows and outflows
95%
demonstrable circularity rate
400+
turbine models analyzed
CSRD
show material inflows and outflows
95%
demonstrable circularity rate
400+
turbine models analyzed
CSRD
show material inflows and outflows
Material breakdown
Analyse des matériaux
Get a complete material breakdown across your portfolio — metals, composites, and rare earth elements. Know exactly what can be recovered, reused, or recycled before decommissioning begins.
Metals and composites analysis across your full portfolio
Identify reuse potential for scarce and high-value resources
Turbine-level granularity — not just site-level averages
Material breakdown
Analyse des matériaux
Get a complete material breakdown across your portfolio — metals, composites, and rare earth elements. Know exactly what can be recovered, reused, or recycled before decommissioning begins.
Metals and composites analysis across your full portfolio
Identify reuse potential for scarce and high-value resources
Turbine-level granularity — not just site-level averages
Circularity tracking
Calculer les taux de circularité
Understand how different decommissioning methods affect your circularity rates. Compare landfill, reuse, and recycling routes — and see which service providers deliver the highest recovery.
Circularity rates broken down by disposal method
Provider-level comparison — who delivers highest material recovery
Component-level tracking from nacelle to blade tip
Circularity tracking
Calculer les taux de circularité
Understand how different decommissioning methods affect your circularity rates. Compare landfill, reuse, and recycling routes — and see which service providers deliver the highest recovery.
Circularity rates broken down by disposal method
Provider-level comparison — who delivers highest material recovery
Component-level tracking from nacelle to blade tip
Circularity tracking
Calculer les taux de circularité
Understand how different decommissioning methods affect your circularity rates. Compare landfill, reuse, and recycling routes — and see which service providers deliver the highest recovery.
Circularity rates broken down by disposal method
Provider-level comparison — who delivers highest material recovery
Component-level tracking from nacelle to blade tip
Nous utilisons désormais ReWind pour l'ensemble de notre flotte d'éoliennes terrestres et offshore pour comprendre de manière robuste le coût potentiel complet du démantèlement. Cela nous permet d'avoir une vue plus holistique, c'est une aide précieuse à la prise de décision avant la mise hors-service de nos éoliennes. Nous pouvons étudier tous les scénarios possible, et d'avoir une approche durable pour le démentalement de nos parcs éoliens.
Rapport Développement Durable 2024
PORTFOLIO ANALYSIS
Map liabilities across your fleet
Get a detailed analysis of materials and decommissioning liabilities across your fleet. Reuse scarce resources and calculate the marginal cost of impact.
Portfolio material breakdown
Aggregated decommissioning costs
Total scrap value in fleet
PORTFOLIO ANALYSIS
Map liabilities across your fleet
Get a detailed analysis of materials and decommissioning liabilities across your fleet. Reuse scarce resources and calculate the marginal cost of impact.
Portfolio material breakdown
Aggregated decommissioning costs
Total scrap value in fleet
Critical Raw Materials
Matériaux critiques (Bêta)
Wind turbines contain critical raw materials — rare earths, copper, and speciality metals — that are increasingly regulated and valuable. ReWind maps these across your portfolio so you can plan recovery.
CSRD and ESRS compliance
Quantify recovery potential and economic value
Identify critical raw materials embedded in turbine components
Critical Raw Materials
Matériaux critiques (Bêta)
Wind turbines contain critical raw materials — rare earths, copper, and speciality metals — that are increasingly regulated and valuable. ReWind maps these across your portfolio so you can plan recovery.
CSRD and ESRS compliance
Quantify recovery potential and economic value
Identify critical raw materials embedded in turbine components
Critical Raw Materials
Matériaux critiques (Bêta)
Wind turbines contain critical raw materials — rare earths, copper, and speciality metals — that are increasingly regulated and valuable. ReWind maps these across your portfolio so you can plan recovery.
CSRD and ESRS compliance
Quantify recovery potential and economic value
Identify critical raw materials embedded in turbine components
Ready to plan smarter end-of-life?
See how ReWind models materials, circularity and decommissioning for your fleet. Book a 20-minute walkthrough with our team
Free · 20 min walkthrough · No commitment
Ready to plan smarter end-of-life?
See how ReWind models materials, circularity and decommissioning for your fleet. Book a 20-minute walkthrough with our team
Free · 20 min walkthrough · No commitment
Ready to plan smarter end-of-life?
See how ReWind models materials, circularity and decommissioning for your fleet. Book a 20-minute walkthrough with our team
Free · 20 min walkthrough · No commitment
ReWind AS © 2026. All rights reserved.
Torggata 11, 0181 Oslo, Norway
ReWind AS © 2026. All rights reserved.
Torggata 11, 0181 Oslo, Norway
ReWind AS © 2026. All rights reserved.
Torggata 11, 0181 Oslo, Norway