Save on Fuel.
Cut Emissions.
Stay Compliant.
AI-powered and tailored aerodynamic retrofits for your cargo ships. Engineered for maximum savings and improved compliance with CII, EEXI, and MARPOL Annex VI regulations.
OUR AMBITION
With rising fuel costs and stricter carbon regulations, the maritime industry faces mounting pressure. Our mission is to equip ship owners with AI-driven aerodynamic retrofits that:
Lower operational costs and emissions
Reduce exposure to Carbon Taxes
Keep fleets compliant with regulations.
All without disrupting operations or requiring changes to existing fuel systems.
OUR IMPACT
IF INSTALLED ACROSS ALL CURRENTLY ACTIVE CONTAINER SHIPS, OUR SOLUTION COULD CUT
11 million tC02 / year
WHICH IS EQUIVALENT TO
2.4 million
Passenger cars taken off the road annually**
523 million
Trees planted and growing for a year***
*Based on Life Cycle Assessment (LCA) conducted with Midpoint ILCD 2.0 2018
**Source: University of Michigan (2024). Carbon Footprint Factsheet. Center for Sustainable Systems.
***Source: Forestry Commission England (2017) Carbon Storage by Habitat: Review of the Evidence of the Impacts of Management Decisions and Condition on Carbon Stores and Sources. Research Report. (Forestry Commission Research Report, FC Research Note 001.)
OUR SERVICES
ANALYSIS
Decision making made easy.
We conduct a comprehensive Computational Fluid Dynamics analysis to assess the aerodynamic feasibility of your current ship fleet.
By leveraging real ship data and industry-grade simulation tools, we give you accurate estimates about cost and emissions savings.
CREATION
Become compliant in one easy step.
Using AI, fluid dynamics, and smart materials, we create a custom, lightweight, aerodynamic structure for your ship.
The design is optimised to reduce drag, improve efficiency, and cut emissions.
IMPLEMENTATION
Fully managed retrofit process.
Our maritime-experienced engineers install the aerodynamic structure on your vessel.
Its AI-powered design ensures seamless integration with your vessel’s profile and operational conditions.
