AI-Driven Energy Optimization for
Heavy Industry
AurenAI autonomously reschedules flexible industrial loads to align with peak onsite solar generation. Reduce grid reliance by up to 30%, lower OPEX, and accelerate EU CBAM compliance—with zero disruption to core production.
The Industrial Energy Mismatch
Installing solar is only step one. Without intelligent load shifting, heavy industries fail to capture the actual ROI of their renewable assets.
Supply vs. Demand Desync
Solar generation peaks at noon, but industrial kilns and mills operate 24/7. Plants end up exporting clean energy at low rates, only to buy back expensive, fossil-heavy grid power during peak production loads.
EU CBAM Risk
The Carbon Border Adjustment Mechanism (CBAM) is closing the door on high-emission exporters. Failing to demonstrably decarbonize onsite operations means losing access to European markets and facing severe carbon tariffs.
Carbon Inefficiency
Grid reliance inherently means burning fossil fuels. Static production schedules negate the environmental benefits of your CAPEX solar investments.
Target Reduction in Grid Reliance
Autonomous Energy Pipeline
A secure, closed-loop AI architecture designed to optimize heavy industrial loads without violating production safety constraints.
1. Telemetry & Ingestion
Non-invasive IoT edge sensors capture real-time telemetry on solar yield and machine-level power draw without tapping into legacy SCADA systems.
2. Load Shifting Engine
Our proprietary forecasting models compute optimal state parameters, dispatching autonomous scheduling decisions to align flexible machine loads with peak solar windows.
3. Reinforcement Learning
The system ingests micro-climatic weather data and historical factory throughput, continuously retraining itself to maximize energy arbitrage.
Engineered for the Plant Floor
Industrial environments do not tolerate beta software. Every module is architected around the physical realities and safety tolerances of heavy manufacturing.
Hyper-Local Solar Forecasting
Predict generation capacity up to 72 hours ahead using multi-variant weather models and localized historical plant data.
Dynamic Load Shifting
Autonomously reschedule energy-intensive, flexible operations (like cement milling) to strictly coincide with peak solar output.
Carbon & Cost Telemetry
Track real-time energy flows, grid import reductions, and verified Scope 2 emissions savings via a secure web dashboard.
Strict Production Safeguards
Programmatic hard constraints guarantee that critical, continuous processes (like kilns) are completely isolated and never interrupted.
Deploy autonomous energy intelligence in your facility.
We are currently selecting three forward-thinking cement plants for our initial deployment. Partner with AurenAI to empirically validate our load-shifting models against your baseline.
- Free 3-month strategic pilot implementation
- Edge IoT hardware kit & integration included
- Projected 15-30% reduction in grid dependency
- Guaranteed zero disruption to critical path operations
Request Pilot Evaluation
Submit your infrastructure details. Our engineering team will review your application within 24 hours.