CCell develops scalable technologies to restore and protect coastlines — from beaches to coral reefs. We engineer reef systems use advanced sensing, data analytics, and bio-inspired design to reduce erosion, rebuild habitats, and accelerate the recovery of marine life.
As rising seas and human pressures threaten coastal ecosystems, CCell links real-time monitoring with adaptive restoration to create feedback-driven solutions that strengthen beaches, revive coral growth, and build resilient, thriving shores.
Step 1 – Coastal Modelling: A multivariate stochastic model is developed using decades of ocean data, climate projections, and locally measured bathymetry. This enables the simulation of thousands of future years of waves, currents, and sediment movement, enabling optimal placement of reef while limiting unintended environmental impacts.
Step 2 – Reef & System Design: Hyperboloid reef structures and anchoring systems are engineered for site-specific conditions, prioritising local bio-based materials and sustainable manufacturing. All required licences and permits are secured during this stage.
Step 3 – Deployment & Monitoring: After manufacture, local teams are trained to support installation. Real-time data then informs adaptive management, ensuring each system evolves with its environment to enhance coastal resilience and marine biodiversity.
Advanced simulations of waves, currents, severe storm, and coastal morphology.
Nature based reefs that provide long-term stability for beaches and clifts.
Efficient structures with the highest known strength to weight ratio.
Real time data insight for nearshore marine operations.
Integrating bio-based materials and electrochemical processes to create carbon-neutral, sustainable reef structures that strengthen over time.
Developing hyperboloid reef geometries with exceptional strength-to-weight ratios.
Modelling the coastal waves, currents, sediment movements to deliver predictable, site-specific performance.
Precision environmental control and continuous monitoring to enhance reef formation and track ecosystem health in real time.
mm/month of limestone rock
growth rate of calcareous organisms
reduction in CO2
wave energy attenuation
of marine life in reefs
bio-compatable
