Revolutionizing the mining and material processing industries is urgently required.
To enable the global energy transition, the supply of critical mineral must scale efficiently and rapidly. By 2050, the global materials system must be carbon-negative, hyper-efficient in resource use, resilient to climate extremes, and inspired by Nature’s solutions.
Enabling a global materials revolution requires deeptech solutions to secure reliable critical mineral supplies and drive transformation in processing industries.
Hyper-Productivity in Energy and Material Use
Digital twins enable system-wide optimization of energy and material flows across steel, cement, mining, and metal refining industries—unlocking radical efficiency gains at scale.
Resilient Material Supply Chains
Resilience to operational and market shocks calls for digital twins that optimize supply chains and manage operational risks—ensuring continuity, adaptability, and traceability across global materials networks.
Deep Decarbonization of Hard-to-Abate Industries
Achieving deep decarbonization in material-intensive sectors requires digital twin platforms to simulate, guide, and validate emissions reduction pathways in steel, cement, mining, and metal refining operations.
Optimization of Discovery & Exploration of Critical Mineral Deposits
The energy transition hinges on expanding access to critical minerals. Digital twins can accelerate and optimize the discovery and exploration of new critical mineral deposits—closing supply gaps through smarter, faster, and more sustainable mineral development.
Digital twins for monitoring, optimization, and risk management in the steel, cement, and metal refining industries.
