As part of the relocation project for the new Morococha City, a slope stabilization system was implemented based on a combination of galvanized wire mesh with passive anchors and green geomats. This intervention provided reliable surface containment against unstable blocks and rockfalls, reinforcing the safety of the surrounding urban areas. The strategic installation of anchor bolts optimized the system’s efficiency and reduced construction times.

Furthermore, the use of green geomats not only provided erosion control but also facilitated the landscape integration of the slopes, meeting high environmental standards in applied engineering. The solution proved to be economically competitive compared to other conventional alternatives and suitable for infrastructure projects in growing urban areas.

To stabilize the exposed cliffs of the Costa Verde, a highly durable technical solution was implemented that combined metal mesh with passive anchors and green geomats. This technology effectively controlled rock fall in an area highly exposed to humidity, salinity, and climate change, ensuring the protection of coastal road infrastructure. The green geomats not only mitigated surface erosion from an early stage but also promoted natural revegetation, visually integrating the slopes into the urban landscape. The ease of installation, along with its low environmental impact and long-term sustainability, position this solution as an efficient and functional alternative, without compromising the safety or aesthetics of the environment.

As part of the relocation project for the new Morococha City, a slope stabilization system was implemented based on a combination of galvanized wire mesh with passive anchors and green geomats. This intervention provided reliable surface containment against unstable blocks and rockfalls, reinforcing the safety of the surrounding urban areas. The strategic installation of anchor bolts optimized the system’s efficiency and reduced construction times.

Furthermore, the use of green geomats not only provided erosion control but also facilitated the landscape integration of the slopes, meeting high environmental standards in applied engineering. The solution proved to be economically competitive compared to other conventional alternatives and suitable for infrastructure projects in growing urban areas.

To stabilize the exposed cliffs of the Costa Verde, a highly durable technical solution was implemented that combined metal mesh with passive anchors and green geomats. This technology effectively controlled rock fall in an area highly exposed to humidity, salinity, and climate change, ensuring the protection of coastal road infrastructure. The green geomats not only mitigated surface erosion from an early stage but also promoted natural revegetation, visually integrating the slopes into the urban landscape. The ease of installation, along with its low environmental impact and long-term sustainability, position this solution as an efficient and functional alternative, without compromising the safety or aesthetics of the environment.