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AI AnalysisClassification & Focus Areas
"Multi-asset VPP combining AI load forecasting and aggregation — RTE-certified demand response operator serving commercial energy managers."
Category Affinity
Subcategory Breakdown (All Domains)
Offerings Products & Services
Tilt Energy AI Platform
An AI-driven demand-side electricity flexibility platform that predicts, orchestrates, and monetizes electricity consumption by connecting buildings' electrical assets to flexibility markets. It includes advanced consumption forecasting, automated aggregation and orchestration of distributed energy resources, and direct monetization through demand response programs.
Case StudiesReferences & Success Stories
EKZ × Tilt Energy: Smart Charging to build the electricity system of tomorrow
In a pilot with EKZ starting January 2026, Tilt Energy's smart charging algorithm optimizes EV charging times for 500 participants based on dynamic tariffs and grid conditions. The project demonstrates how automated flexibility can reduce network strain and avoid costly infrastructure upgrades while rewarding users with a monthly fee discount.
Oksigen: Turning every building into an active player in the power system
Through integration with Oksigen’s clients and building management systems, Tilt enabled dynamic adjustment of buildings' electricity consumption to grid and market signals. This enhanced Oksigen’s service offering, generating new revenue from energy markets while improving economic and environmental performance.
Alliander: Artificial Intelligence serving grid infrastructure
Tilt Energy provided AI-based probabilistic load forecasting for Alliander's distribution substations, delivering granular predictions every 5 minutes up to 48 hours ahead. This helps the grid operator identify overloads, detect flexibility margins, and inform investment decisions for improved infrastructure management.
Carrefour: Reinventing Energy Management in large-scale Retail
Carrefour partnered with Tilt to optimize energy consumption across several high-consumption sites using AI-driven demand-side flexibility. The platform integrates with existing supervision systems to shift loads without compromising comfort, turning HVAC systems into grid-supporting assets that generate revenue and reduce carbon emissions.