In the construction industry, the environmental impact of traditional methods can be significant, particularly when it comes to building retaining walls. Ankora Retaining Wall is revolutionizing the industry with an eco-friendly approach that prioritizes environmental sustainability without compromising performance.
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Reduced Carbon Emissions with Native Backfill
One of the most significant environmental benefits of Ankora Retaining Wall lies in the ability to utilize native backfill. Traditional retaining wall systems that exceed 10 feet in height require large quantities of imported granular fill, often reinforced with geogrid. This not only increases the volume of excavation but also the amount of trucking needed to transport soil and materials to and from the site—leading to higher carbon emissions.
In contrast, Ankora significantly reduces the need for importing fill material. By making the most of native soils, it reduces both the excavation required and the number of truck trips needed. This streamlined process substantially reduces carbon emissions, helping minimize the environmental footprint of retaining wall construction projects.
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Elimination of Geogrid
Ankora Retaining Wall eliminates or reduces the need for geogrid, typically made from polymers like polyethylene, polypropylene, and polyester. The production and use of these polymers can have long-term environmental impacts, as they do not break down easily in nature.
By removing the need for geogrid and accommodating active soils on-site, Ankora reduces the introduction of these synthetic materials into the environment. Fewer geogrid-reinforced systems mean fewer polymers, fewer truck movements, and a more sustainable construction approach.
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Preserving Existing Vegetation
Construction projects can often lead to the destruction of existing vegetation, particularly on slopes and hillsides. However, the design of the Ankora Retaining Wall allows for the preservation of this natural flora. The system is optimized to reduce land disturbance, saving existing vegetation and preventing the loss of ecosystems.
In addition to protecting plant life, preserving vegetation helps maintain soil integrity and reduces the risk of erosion. This not only enhances the environmental sustainability of the project but also ensures a more harmonious integration of the retaining wall into the natural landscape.
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Minimizing Traffic Impact
Traffic disruptions during construction projects can lead to increased vehicle idling, which contributes to air pollution. When Ankora Retaining Walls are constructed along roads and highways, their unique building process ensures that traffic can be maintained with minimal interruptions.
The reduction in idling vehicles not only decreases fuel consumption but also reduces carbon emissions, making Ankora a smarter choice for roadside construction projects. This minimizes the environmental impact on surrounding communities while keeping the project on track.
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Excellent Seismic Performance
Environmental sustainability isn’t just about reducing materials and emissions—it’s also about durability. The Ankora Retaining Wall is engineered to provide exceptional seismic performance, offering ductility and over-strength to resist earthquake shaking. This ensures that walls built with Ankora not only meet but exceed safety standards, reducing the need for future repairs and replacements, which can have additional environmental impacts.
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Ankora Retaining Walls exemplifies how sustainability and performance can go hand in hand. By reducing the need for imported fill, eliminating geogrid, preserving vegetation, minimizing traffic impact, and offering superior seismic performance, Ankora is paving the way for more environmentally responsible retaining wall construction. With its innovative approach, Ankora is not just reshaping landscapes but also contributing to a greener, more sustainable future for the construction industry.