As part of the relocation project for the New City of Morococha, a slope stabilization system was implemented combining galvanized steel meshes, passive anchors, and green geomats.

This solution provided reliable surface containment against unstable blocks and rockfall, enhancing safety in adjacent urban areas. Strategic anchor placement improved system efficiency and reduced construction timelines.

Additionally, the use of green geomats contributed to erosion control and facilitated landscape integration of the slopes, meeting high environmental standards in applied engineering. The solution proved to be economically competitive and well-suited for infrastructure projects in expanding urban zones.

To stabilize the exposed cliffs of Costa Verde, a high-durability technical solution was implemented combining steel meshes, passive anchors, and green geomats. This system effectively controlled rockfall in an area exposed to high humidity, salinity, and climatic variability, ensuring protection of coastal roadway infrastructure.

Green geomats mitigated surface erosion from early stages and promoted natural revegetation, visually integrating the slopes into the urban landscape.

The ease of installation, low environmental impact, and long-term sustainability position this solution as an efficient and functional alternative, without compromising safety or aesthetics.

As part of the relocation project for the New City of Morococha, a slope stabilization system was implemented combining galvanized steel meshes, passive anchors, and green geomats.

This solution provided reliable surface containment against unstable blocks and rockfall, enhancing safety in adjacent urban areas. Strategic anchor placement improved system efficiency and reduced construction timelines.

Additionally, the use of green geomats contributed to erosion control and facilitated landscape integration of the slopes, meeting high environmental standards in applied engineering. The solution proved to be economically competitive and well-suited for infrastructure projects in expanding urban zones.

To stabilize the exposed cliffs of Costa Verde, a high-durability technical solution was implemented combining steel meshes, passive anchors, and green geomats. This system effectively controlled rockfall in an area exposed to high humidity, salinity, and climatic variability, ensuring protection of coastal roadway infrastructure.

Green geomats mitigated surface erosion from early stages and promoted natural revegetation, visually integrating the slopes into the urban landscape.

The ease of installation, low environmental impact, and long-term sustainability position this solution as an efficient and functional alternative, without compromising safety or aesthetics.