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Drainage Cell

drainage cell

Product Details :

The Drainage Cell is an advanced, eco-friendly drainage system designed for modern landscaping and civil engineering, expertly managing sub-surface water to maintain soil health and prevent waterlogging. Made from 100% recycled, high-strength polypropylene, it offers exceptional durability and resistance to chemical and biological harm. The innovative interconnected cell design promotes efficient water flow and air circulation, essential for healthy root growth and drainage.

Each unit, measuring 25cm x 25cm x 3cm, is part of a bunch comprising 80 pieces, covering a 5-meter area and supporting about 18 kg. Engineered to last up to 5 years and made from quality PP material, 16 pieces are needed per square meter. Its flexible yet strong composition, easily cut with a cutter, makes Drainage Cell a versatile solution for diverse water management needs, ensuring effective, long-lasting results.

Drainage Cell
Drainage Cell
Drainage Cell

Drainage Cell Application

The Drainage Cell Urban Plastic system is a versatile and innovative solution that finds extensive application in a variety of settings, contributing significantly to efficient water management and soil health preservation.

In the context of golf courses, Drainage Cell Urban Plastic plays a crucial role. Golf courses demand well-drained soils to maintain their lush, green appearance and playable conditions. The system ensures that excess water is efficiently drained away, preventing waterlogging which can damage the grass and disrupt play. This drainage solution helps in maintaining the aesthetic and functional quality of the golf course, even in adverse weather conditions.

Another notable application of Drainage Cell Urban Plastic is in rainwater irrigation systems for plants. In urban areas where water conservation is key, these cells can be used to collect and redirect rainwater effectively to plant roots. This not only optimizes water usage but also ensures that plants receive adequate moisture without the risk of overwatering. The system’s ability to maintain an ideal moisture balance is essential for the health and growth of urban plant life.

In parking parks, Drainage Cell Urban Plastic is invaluable. It helps manage and direct rainwater runoff, which is a common issue in such concrete-heavy environments. By facilitating efficient drainage, it prevents the accumulation of water on the surface, thus reducing slip hazards and enhancing the safety and usability of parking areas.

When it comes to synthetic grass installation, Drainage Cell Urban Plastic acts as an excellent foundation. It allows for proper drainage beneath the turf, preventing water accumulation and ensuring the durability and maintenance of the synthetic grass. This is particularly important in sports fields or recreational areas where synthetic grass is commonly used.

Finally, its application in roof gardens is revolutionary. Roof gardens face the unique challenge of needing sufficient drainage while retaining enough moisture for plant growth. Drainage Cell Urban Plastic addresses this by facilitating the draining of excess water, preventing root rot in plants due to waterlogging. At the same time, it helps in retaining adequate moisture, ensuring that the plants remain healthy and vibrant. This dual action is critical in urban settings where roof gardens are not only aesthetic elements but also contribute to environmental sustainability.

In summary, the Drainage Cell Urban Plastic system is a multifaceted tool, crucial in modern urban and recreational environments. Its applications range from enhancing the beauty and functionality of golf courses to supporting sustainable urban agriculture in roof gardens. Its role in rainwater management, particularly in parking parks and under synthetic grass, further underscores its utility. By ensuring efficient water management and soil health, Drainage Cell Urban Plastic is an essential component in modern landscape architecture and environmental sustainability efforts.

    What is a drainage cell?

    A drainage cell is a modular, lightweight, and highly permeable structure used in sub-surface drainage systems. Typically made from plastic such as polypropylene, it forms a honeycomb-like matrix that allows for efficient water passage. Drainage cells are used to facilitate water removal from soil or surface areas, preventing waterlogging and promoting aeration. They’re commonly employed in landscaping, roof gardens, retaining walls, and under synthetic turf, providing a solution for effective water management and soil stability in various construction and horticultural applications.

    How do you install a drainage cell?

    To install a drainage cell:

    1. Prepare the Area: Clear the installation area of debris and level the ground.
    2. Lay Geotextile Fabric: Cover the area with a layer of geotextile fabric to prevent soil and sediment infiltration.
    3. Place the Drainage Cells: Lay the drainage cells over the fabric, ensuring they interlock securely.
    4. Cut to Fit: Trim the cells as needed to fit the area.
    5. Add Another Geotextile Layer: Cover the cells with another geotextile layer for additional filtration.
    6. Backfill: Finally, backfill with soil, gravel, or the chosen landscaping material.
    7. Check Alignment and Stability: Ensure the cells are evenly laid out and stable before finalising the installation.

    What is the use of Draincell?

    Draincell, also known as drainage cell, is primarily used for efficient sub-surface drainage. Its applications include:

    1. Gardening and Landscaping: Facilitates effective drainage in planter boxes and roof gardens, preventing waterlogging and root rot.
    2. Building Foundations and Retaining Walls: Protects structures from water damage by diverting water away.
    3. Sports Fields and Playgrounds: Ensures rapid drainage of rainwater, maintaining usability and safety.
    4. Green Roofs: Essential for water management in green roofing systems, promoting healthy plant growth and reducing runoff.
    5. Road and Pavement Construction: Prevents water accumulation, enhancing the lifespan of road surfaces.

    What is the function of drainage?

    The primary function of drainage is to efficiently remove excess water from soil, surfaces, or structures. This process prevents water accumulation which can lead to problems such as soil erosion, waterlogging, structural damage, and unhealthy plant growth. In agriculture, drainage improves soil aeration and root development. In urban areas, it prevents flooding and maintains the integrity of infrastructure. Effective drainage systems ensure environmental balance, enhance agricultural productivity, and safeguard constructions against water-related damage and instability.

    What materials are in drain cells?

    Drain cells, often used in sub-surface drainage systems, are typically made from high-strength polypropylene or similar thermoplastic materials. These materials are chosen for their durability, chemical resistance, and ability to withstand various environmental conditions. Polypropylene, in particular, is favoured for its lightweight yet robust nature, ensuring efficient water conveyance while resisting soil pressure. Drain cells are designed to be porous, allowing for effective water drainage, and are often recyclable, aligning with environmental sustainability efforts.

    Where should drainage system be placed?

    A drainage system should be strategically placed in areas where water accumulation is likely, such as low points on a property or areas prone to waterlogging. It’s often installed along the foundation of buildings to prevent water seepage into basements or crawl spaces. In landscapes, drainage systems are placed in gardens, lawns, or near driveways to manage surface water. The system should have a slight slope, ensuring water flows away from structures towards designated drainage areas, like storm drains or natural watercourses.

    What are the different types of drainage cells?

    Drainage cells come in various types, each designed for specific applications. Sheet-based drainage cells are flat, perforated panels used for horizontal drainage, ideal for green roofs and planter boxes. Nodal drainage cells, featuring raised nodules, are used for vertical drainage against walls and foundations. Modular, stackable cells are used in sub-surface drainage systems, such as under driveways or sports fields. Lastly, flexible drainage cells, adaptable to uneven surfaces, are employed in landscaping and retaining wall drainage. Each type facilitates efficient water evacuation and soil aeration.

    Do we need drainage cell for artificial grass?

    Yes, drainage cells are often recommended for artificial grass installations, especially in areas with heavy rainfall or poor natural drainage. These cells provide an effective drainage layer beneath the turf, ensuring water is quickly and efficiently drained away from the surface. This prevents water pooling and extends the lifespan of the artificial grass by reducing moisture-related deterioration. The use of drainage cells also helps in maintaining a dry and stable surface, enhancing the usability and appearance of the artificial turf area.

    Why is good drainage important for plants?

    Good drainage is crucial for plants as it prevents waterlogging, which can lead to root rot, a condition detrimental to plant health. Excess water suffocates roots, hindering their ability to absorb oxygen and nutrients. Proper drainage ensures that water moves through the soil, maintaining the right moisture balance. It also helps in flushing out salts and preventing soil salinity, which can be harmful to plants. Adequate drainage promotes healthy root growth, leading to stronger, more resilient plants.

    How do I add drainage to my garden?

    To add drainage to your garden, start by improving soil composition; mix in organic matter like compost or peat moss, which enhances soil structure and drainage. For compacted or clay-heavy soils, consider installing a French drain or drainage pipes to channel water away from problem areas. Raised beds can also provide effective drainage for plants. Additionally, creating slopes in the garden can help direct water flow away from plants. For container gardening, ensure pots have adequate drainage holes at the bottom.