ScottishPower Challenge

ReWind Offshore Turbine

"Basalt hybrid eco-circular modular offshore wind turbine with AN.Energy’s Pleiades Neural Network, designed to cut cost, reduce carbon emissions, and simplify end-of-life recovery."

⚙️

Assemble

Quicker

📈

Predict

Earlier

🏗️

Recover

Faster

🍃

Discontinue

Cleaner

Construction

Operation

Decommissioning

Scroll to explore lifecycle

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SECTION 01 — CONCEPT

One platform, four engineered moves

Advanced basalt-hybrid eco-circular blades design.
AN.Energy’s Pleiades Neural Network integrates with Environmental Parameters and existing SCADA, CMS, SAP/Maximo, and OEM systems
Reducing lifecycle cost, material waste, and carbon impact through smarter design and operational intelligence.
Focusing on a system that is technically feasible, scalable, and commercially realistic for offshore deployment.

Modular

Lower OPEX

Cleaner EoL

"If a part is expensive to access offshore, it must be modular. If it reaches end-of-life, it must be removable."

SECTION 02 — CONSTRUCTION

Basalt hybrid Eco-Circular blade structure

Feasible within the next decade using existing offshore turbine platforms.
Combines basalt-hybrid circular blades with AN.Energy’s Pleiades Neural Network.
Uses practically available materials; no rare or ethically difficult inputs.
Built for harsh offshore conditions: salt, erosion, weather, and long service life.
Estimated cost: ~£48.0M to ~£48.8M per 12 MW turbine.

Smaller loads

Fewer lifts

Lower carbon

"Building assets for long-term performance, resilience, and value."

SECTION 03 — OPERATION

AN.Energy turns a Normal turbine into a Forecastable Asset

Pleiades Neural Network integrates with Environmental Parameters and existing SCADA, CMS, SAP/Maximo, and OEM systems
Improves monitoring of converters, controls, and degradation patterns.
Annual OpEx falls from ~£1.23M to ~£975K per turbine.
Over 25 years, this equates to approximately ~£593.75 Million in direct operating-cost savings before discounting
Reduces downtime, vessel interventions, and operational carbon impact.

Predict

Act

Prevent

"AN.Energy's smart predictive maintenance turns offshore operations from reactive and costly into planned, efficient, and scalable."

SECTION 04 — DECOMMISSIONING

Recover More, Waste Less

Designed for recovery, not disposal
Blades are easier to classify, section, sort, repair, reuse, or recycle.
Supports cleaner end-of-life handling through circular design and traceability.
Decommissioning cost falls from ~£1.32M to ~£1.01M per turbine.
Improves ESG value, reduces landfill dependence, and lowers lifecycle carbon impact.

Reuse first

Recover second

Waste last

"A circular blade strategy ensures end-of-life is managed as recovery and value retention, not as waste."

SECTION 05 — CONCLUSION

The whole lifecycle

This approach is achievable in next 5-10 years of time. Though it needs intensive R&D and Testing.

Design & port fabrication

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Offshore Assembly and Establishment

→

Operation + Maintenance using AN.Energy

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Modular Removal of Parts

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Reuse & material recovery

Build smaller modules → Predict faults earlier → Remove parts cleanly → Return materials to useful service

Recovered modules, recovered materials and recovered data all feed the next turbine generation.

ReWind Offshore Turbine

Assemble

Predict

Recover

Discontinue

One platform, four engineered moves

Basalt hybrid Eco-Circular blade structure

AN.Energy turns a Normal turbine into a Forecastable Asset

Recover More, Waste Less

The whole lifecycle

Design & port fabrication

Offshore Assembly and Establishment

Operation + Maintenance using AN.Energy

Modular Removal of Parts

Reuse & material recovery

Driving the Transition