Geocells are a relatively new technology in the field of soil reinforcement and erosion control. Made from high-density polyethylene (HDPE), geocells form a honeycomb shaped grid structure that is ideal for a variety of landscape and infrastructure applications. When filled with soil or aggregate materials, geocells provide exceptional stability and reliability. Their simple yet ingenious design has led to widespread use over the past few decades. This article will explore the various benefits of geocells and how they are revolutionizing soil management.
What are Geocells?
A geocell is a three-dimensional mat that is made from interconnected strips of high-density polypropylene or polyethylene molded into a honeycomb pattern. The strips are connected at the edges to form tubular geocell units that can be connected together into various configurations depending on the size and shape needs of a project. Typically, geocells units come in rolls and are connected by folding over and sealing the edges.
Once the interconnected geocell structure is put into place, it is then filled with gravel, sand, or soil. The honeycomb structure provides stability and reinforcement while also allowing for drainage. Fully saturated geocells gain significant bearing strength derived from lateral confinement of the infill material within each cell. Their unique cellular design enables geocells to withstand substantial dynamic and static loading forces.
Applications of Geocells
Slope Protection
Road and Railway Embankments
Utilities and Drainage
Landscaping and Turf Reinforcement
Temporary Access Roads
Erosion Control
Below are some more details on common uses of geocells:
Slope Protection
Geocells are highly effective for stabilizing and protecting slopes prone to erosion, surface cracking, or failure. By confining and strengthening earthen materials in the sloped surface, geocells can reinforce slopes up to 1:1 or even 1:1 gradients. This makes them well suited for construction sites, retaining walls, dams, landfills, and other sloped surfaces.
Road and Railway Embankments
The reinforcement provided by Geocells is ideal for constructing stable roadway and railway embankments. They increase the bearing capacity of soils used in embankments and reduce settlement risks. This allows roads and rail lines to be built across weak and marginal soils that otherwise could not support the infrastructure load.
Utilities and Drainage
The honeycomb structure of geocells enables them to function as both a soil stabilizer and a drainage medium. This makes them a good solution basement walls or retaining walls for drainage behind the structure. Geocells are also used for stabilizing ground around utility structures like pipelines, utility poles, or transmission towers.
Landscaping and Turf Reinforcement
In the landscaping field, geocells are used to stabilize soils in applications like tree root protection, turf reinforcement, and non-vehicle traffic areas. Their reinforcement of the soil structure protects seeds and vegetation as they establish root systems. This leads to healthier, longer-lasting landscaping installations with less erosion.
Temporary Access Roads
The temporary roads and haul routes created at construction sites subject soils to heavy vehicle traffic and risk damaging the surface. Geocells allow thinner lifts of aggregate to be laid down that won't rut or deteriorate as easily under equipment loads. They effectively stabilize access roads during and after a project.
Erosion Control
On beaches, shorelines, channels or other erosive environments, geocell mattresses stabilize soils, confine aggregate, and reduce sediment movement. They are often used in biotechnical streambank stabilization together with vegetation for a "soft" non-structural solution.
Benefits of Geocells
Improved Soil Strength
One of the primary benefits of geocells is the significant gains they provide in soil strength properties. By restricting soil movement and keeping infill material in place, geocells can increase the bearing capacity, shear strength, and resistance to stress and loading of stabilized soil structures. The confined infill material acts almost as a semi-rigid structural element.
Reduced Erosion
By armoring earthen surfaces, geocells effectively reduce erosion from any environmental elements like water, wind, or traffic. Confinement of infill prevents it from being dislodged or forming ruts while also allowing for permeability that prevents saturation. This makes them useful for minimizing sediment movement in applications ranging from slopes to drainage channels.
Thin Layer Stabilization
Unlike alternatives like reinforced soil structures, geocells enable soil reinforcement and stabilization using thin lifts of infill material, often as little as 3-6 inches. This means construction and materials costs are lower compared to other techniques that require thicker compacted soil layers. Thin layer placement is also quicker.
Vegetation Growth
The honeycomb pattern of geocells creates an ideal growing medium to support seeding and placement of vegetation. It holds topsoil and seeds in place until roots develop, at which point the cellular framework gradually degrades. This speeds up self-sustaining vegetative establishment on challenged surfaces like steep slopes or stockpile areas.
Adaptability
Geocells are extremely adaptable to site conditions. They can be installed over irregular ground, cut to fit around obstructions, and joined together to cover any size or shape area. Plus, the polyethylene material is rugged and resilient, coping well with exposure to weathering or difficult job site environments.
Low Maintenance
Once installed and filled, geocells require little to no ongoing maintenance. The structures are designed to last the design life of the project with no additional armoring or repair typically needed. This reduces long-term expenses associated with maintaining soil bioengineering solutions or conventional riprap installations.
Cost-Effectiveness
Not only are geocells more affordable to install compared to rock riprap or retaining walls, but they also provide protection and performance at a lower lifetime cost. Factoring in reduced erosion and maintenance needs, geocells deliver strong value over alternatives through lower total cost of ownership. Their versatility also allows them to accomplish multiple purposes in a single application.
Conclusion
As an innovative soil stabilization technique, geocells have rapidly gained popularity due to their extensive benefits and versatility. Whether used for erosion control, slope reinforcement, infrastructure projects or landscaping needs, geocells prove a highly effective soil bioengineering solution that strengthens earthen structures while allowing for self-sustaining vegetation. With continued advances and new applications on the horizon, geocells are
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