Geocells are three-dimensional geosynthetic engineered materials made from high-density polypropylene, polyethylene, or polyester. They are used in civil engineering applications to reinforce soils and allow vegetation to establish, helping to prevent erosion. They come in prefabricated honeycomb-like panels or rolls that expand when filled with soil.
Types
There are different types designed for various applications:
Permanent Geocells – Made from durable synthetic materials like polypropylene, these are designed to remain in place permanently. They provide long-term slope protection and soil reinforcement benefits. They find use in applications like retaining walls, slope reinforcement, shoreline protection, and canal linings.
Degradable/Biodegradable Geocells – Made from materials like coir, jute, or blended polymers, they provide initial protection and allow vegetation to establish before degrading. As plants develop root networks, they degrade and disappear. They are suited for applications where a permanent structure is not needed long-term.
Unfilled Geocells – These have an open-mesh, honeycomb structure that allows for placement of infill soil and establishment of deep-rooted vegetation inside each cell. The infill soil holds the slope or embankment in place while plant roots develop strength over time.
Prefilled Geocells – They come with infill soil already in place within the structured cells. They require less installation work but offer less flexibility in cell filling compared to unfilled.
Applications
The main applications where they are used include:
Slope Reinforcement – Geocells work well to reinforce soil on steep slopes prone to erosion. By containing and reinforcing infill soils, they stabilize slope faces and allow for vegetation growth.
Retaining Walls – As a living retaining wall system, they hold back infill soils while plant roots develop strength. Combined with proper drainage, they serve as permeable, ecologically-friendly retaining structures.
Shoreline Protection – Along shorelines, they filled with soil or gravel form erosion control mats to protect coastal landscapes from wave action. Vegetation further stabilizes the protected areas.
Drainage Applications – They aid drainage by providing structure to aggregate infill for applications like french drains, terracing, swales, and canal lining. The honeycomb structure prevents washouts.
Erosion Control Blankets -They filled with infill soil or hydraulically applied seeds, mulches, and tackifiers create blankets that stabilize slopes, channels, and other disturbed soils against erosion.
Roadway Applications – In road construction, geocells reinforce embankments and subgrades. They control erosion, allow compaction, and structurally enhance pavement support.
Benefits
Some key benefits that they provide include:
Soil Reinforcement – The structured cell design increases shear resistance and reinforces infill soils. This improves slope/embankment stability.
Erosion Control – Containing infill soils within geocell structures and allowing for planting helps prevent loss of soil through erosion.
Vegetation Establishment – The cells provide an ideal growing environment for deep-rooted plants by retaining moisture and nutrients around developing root systems.
Permeability – Unlike solid structures, they maintain permeability to allow for water infiltration and drainage through the honeycomb design.
Aesthetics – With natural vegetation infill, they form living, visually appealing erosion control structures that blend into surroundings.
Longevity – Durable geocell materials ensure reinforcement benefits last for decades versus short-term blankets and mats.
Cost Effectiveness – While initial costs may be higher, they provide long-term performance and erosion protection vs recurrent repair/replacement costs.
Sustainability – They use natural or recyclable materials and allow for vegetation establishment, providing environmental benefits over hard armor solutions.
Installation and Maintenance
Proper installation following manufacturer specifications ensures geocells perform as designed over the long run. Installation involves:
– Site preparation through grading and seeding/planting
– Laying out and anchoring geocell panels/rolls
– Filling cells with specified infill materials
– Compacting infill according to subsurface conditions
– Adding final layers of topsoil and seeding/planting
For maximum performance, maintenance may include:
– Inspecting installation integrity and making repairs if needed
– Watering vegetation during establishment periods
– Weeding to remove unwanted plants that compete with planted species
– Monitoring for erosion or undermining and making prompt repairs
They provide an innovative soil bioengineering solution for infrastructure erosion control needs. Through reinforcement of infill soils and facilitation of vegetation growth, they offer long-term living erosion control structures suitable for a wide variety of civil engineering applications.
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