Restoring biodiversity
in our ports and harbours
with 3D printed elements
Restoring biodiversity
in our ports and harbours
with 3D printed elements
Restoring biodiversity
in our ports and harbours
with 3D printed elements
StoneReefs is a 3D-printed reef for mounting onto existing sheet piles, enhancing marine biodiversity. Utilizing 3D printing ensures organic shapes for hiding places and easy installation
StoneReefs is a 3D-printed reef for mounting onto existing sheet piles, enhancing marine biodiversity. Utilizing 3D printing ensures organic shapes for hiding places and easy installation
Use case
Increase biodiversity
Increase biodiversity
StoneReefs is designed to increase biodiversity in marine environments for Municipalities, Harbours, Organizations, and Marine-related companies.
StoneReefs is designed to increase biodiversity in marine environments for Municipalities, Harbours, Organizations, and Marine-related companies.
Fit existing structures
Fit existing structures
StoneReefs maximizes space without disruption, tailored for the empty potential within sheet pile indentations, providing necessary shelters without disturbing water activities
StoneReefs maximizes space without disruption, tailored for the empty potential within sheet pile indentations, providing necessary shelters without disturbing water activities
Habitat for animals
Habitat for animals
The structure is designed with a surface texture to attract algae, plants, and organisms. Engineered for fish and other creatures, it offers varied cavities and surfaces.
The structure is designed with a surface texture to attract algae, plants, and organisms. Engineered for fish and other creatures, it offers varied cavities and surfaces.
technology
3D printed
3D printing makes it possible to make organic shapes and hiding places that are easy to install on existing sheet piles by utilizing the vacant potential of the indentation in the sheet pile.
3D printing makes it possible to make organic shapes and hiding places that are easy to install on existing sheet piles by utilizing the vacant potential of the indentation in the sheet pile.
In use
StoneReefs is being utilized in Nordhavn, Copenhagen to enhance biodiversity within the harbor together with Copenhagen Municipality
In use
StoneReefs is being utilized in Nordhavn, Copenhagen to enhance biodiversity within the harbor together with Copenhagen Municipality
Application
Magnetically attached
Magnetically attached
Reefs can be set up in many ways, including with magnets on existing sheet piles. This also creates a hollow space for aquatic life to seek shelter behind the structure
Reefs can be set up in many ways, including with magnets on existing sheet piles. This also creates a hollow space for aquatic life to seek shelter behind the structure
Scalable
Scalable
The size of the investment can be adjusted to your budget. Prices from 500€
The size of the investment can be adjusted to your budget. Prices from 500€
UNLIMITED DESIGNS
Design 1
Weight: 40.3 kg
Surface area: 1.65 m²
Design 2
Weight: 48.3 kg
Surface area: 2.15 m²
Design 3
Weight: 43.2 kg
Surface area: 1.85 m²
Design 4
Weight: 44.5 kg
Surface area: 1.88 m²
Design 5
Weight: avg: 78.05 kg
Surface area: avg: 1.0 m²
Design 6
Weight: 42.7 kg
Surface area: 2.08 m²
Design 1
Weight: 40.3 kg
Surface area: 1.65 m²
Design 2
Weight: 48.3 kg
Surface area: 2.15 m²
Design 3
Weight: 43.2 kg
Surface area: 1.85 m²
Design 4
Weight: 44.5 kg
Surface area: 1.88 m²
Design 5
Weight: avg: 78.05 kg
Surface area: avg: 1.0 m²
Design 6
Weight: 42.7 kg
Surface area: 2.08 m²
Design 1
Weight: 40.3 kg
Surface area: 1.65 m²
Design 2
Weight: 48.3 kg
Surface area: 2.15 m²
Design 3
Weight: 43.2 kg
Surface area: 1.85 m²
Design 4
Weight: 44.5 kg
Surface area: 1.88 m²
Design 5
Weight: avg: 78.05 kg
Surface area: avg: 1.0 m²
Design 6
Weight: 42.7 kg
Surface area: 2.08 m²
TRUSTED BY
3D printed reefs in bespoke sizes and designs
3D printed reefs in bespoke sizes and designs
3D printed reefs in bespoke sizes and designs