DRAINAGE CELL

Drainage Cells have emerged as an advanced system that redefines efficient water management and surface drainage in various applications. With their innovative design and cellular structure, drainage cells offer excellent water flow and storage capacity, making them an ideal solution for managing stormwater runoff and maintaining proper drainage.

  1. Home
  2. /
  3. DRAINAGE CELL
baligeotex-drainagecell-1
buy now

One of the key benefits of drainage cells is their ability to effectively capture and direct excess water. The cellular structure of these cells allows for efficient water flow, preventing waterlogging and reducing the risk of surface flooding. By providing a pathway for water to drain away, drainage cells help to maintain a healthy environment for vegetation growth and prevent water-related damage to structures.

Drainage cells find extensive use in rooftop gardens and green roofs. These systems allow for the cultivation of plants and vegetation on rooftops, providing numerous benefits such as improved aesthetics, insulation, and environmental sustainability. By incorporating drainage cells, excess water can be efficiently managed and directed away from the rooftop garden, ensuring proper drainage and preventing water buildup that can lead to plant stress or structural issues.

product knowledges

  1. Size per pcs: 25cm x 25cm x 3cm
  2. 1 bunch = 5 meters = 80 pcs @25cm x 25cm x 3cm
  3. 1 bundle can withstand ± 18 kg of weight
  4. For installation services, minimum installation = 50 m2 (800 pcs)
  5. Product durability = 5 years
  6. Material: PP (polypropylene) Ori
  7. 1 m2 = 16 pcs
  8. Can be elastic, but hard to break
  9. Can be cut using a cutter
  10. Application:
  • Golf course
  • Rainwater irrigation system for plants
  • Park parking
  • Synthetic grass is placed over the Drainage Cell
  • Suitable for use on roof gardens, to help drain water

Underground so that there is no decay of plant roots due to excess waterlogging but still maintain moisture.

Furthermore, drainage cells are also utilized in underground drainage systems. These systems are designed to capture and manage stormwater runoff from paved surfaces, preventing it from overwhelming traditional drainage infrastructure or causing surface flooding. The cellular structure of drainage cells allows for the storage and controlled release of water, minimizing the impact on the surrounding environment and reducing the strain on existing drainage systems.

The lightweight and easy-to-install nature of drainage cells contribute to their popularity in urban environments. These cells are typically made from durable and environmentally friendly materials, making them easy to handle and transport. The modular design of drainage cells allows for quick and efficient installation, reducing labor and construction time.

drainagecell-baligeotex
Drainage Cell with Geotextile

This makes them an ideal choice for retrofitting existing structures or implementing new water management systems in urban areas where space is often limited.

Additionally, drainage cells offer a sustainable solution for water management. By effectively managing stormwater runoff and promoting proper drainage, they help reduce the strain on traditional drainage infrastructure and prevent water pollution. The controlled release of water from drainage cells allows for natural filtration and infiltration, minimizing the impact on local water bodies and replenishing groundwater sources.

In conclusion, drainage cells are an advanced system that revolutionizes efficient water management and surface drainage. With their innovative design and cellular structure, these cells provide excellent water flow and storage capacity, making them ideal for various applications. Whether it’s rooftop gardens, green roofs, or underground drainage systems, drainage cells offer a sustainable solution for managing stormwater runoff and maintaining proper drainage. Embrace the power of drainage cells and revolutionize your water management practices, promoting a healthier and more sustainable environment.

FREQUENTLY ASKED QUESTIONS

What are the benefits of using Drainage Cells?

Drainage Cells offer several benefits for managing water flow and improving structural integrity in construction projects. They efficiently facilitate water drainage, preventing waterlogging and ensuring proper aeration for soil and plant roots. By creating void spaces, they reduce hydrostatic pressure, protecting structures like retaining walls, green roofs, and podiums from water damage. Drainage cells are lightweight, durable, and easy to install, making them ideal for sustainable urban drainage systems. Additionally, they promote eco-friendly solutions by supporting green infrastructure and minimizing erosion. Their design also enhances water harvesting and re-use, contributing to water conservation efforts.

How are Drainage Cells installed?

The installation of Drainage Cells involves several steps to ensure their proper functioning and effectiveness. Here is a general overview of the process:

  • Site Preparation: Before installing drainage cells, the site needs to be prepared appropriately. This may involve clearing the area of any debris or obstructions and ensuring a level and stable foundation for the installation.
  • Survey and Planning: A detailed survey of the site is conducted to identify the areas where drainage cells will be installed. Proper planning ensures that the cells are strategically placed to manage stormwater effectively.
  • Excavation: Trenches or pits are excavated at the designated locations where the drainage cells will be placed. The depth and size of the excavation depend on the specific requirements of the project.
  • Geotextile Fabric Installation: A geotextile fabric is laid at the bottom and sides of the excavated area. This fabric acts as a separator, preventing the drainage cells from coming into direct contact with the surrounding soil and ensuring proper water flow through the cells.
  • Cell Assembly: The drainage cells are assembled and interconnected within the excavated area. They are placed side by side to form a continuous system that can handle stormwater efficiently.
  • Cell Filling: Once the drainage cells are in place, they are filled with a clean and well-graded filter media or aggregate material. This material acts as a filter to allow water to pass through while preventing clogging and ensuring the long-term functionality of the cells.
  • Perimeter Encapsulation: The perimeter of the drainage cell system is encapsulated with additional geotextile fabric and a protective layer to secure the cells in place and prevent any movement or shifting.
  • Outlet Installation: An outlet or discharge pipe is installed to regulate the controlled release of water from the drainage cells into the existing stormwater system or the ground.
  • Backfilling: The excavated area around the drainage cell system is backfilled with suitable soil, compacted to provide stability, and promote proper drainage.
  • Surface Restoration: Any disturbed surfaces are restored to their original condition, ensuring a seamless integration of the drainage cell system into the surrounding landscape.

It is essential to follow industry standards and guidelines during the installation process to ensure the optimal functioning of the drainage cells. Proper installation by qualified professionals is crucial to maximizing the benefits of these innovative stormwater management systems and promoting sustainable urban development.

How does Geotextile contribute to the longevity of Drainage Cells?

Geotextile plays a crucial role in enhancing the longevity of drainage cells by acting as a filter and separator. Here’s how it contributes:

  1. Filtration: Geotextile prevents soil, debris, and fine particles from entering the drainage cells while allowing water to pass through. This prevents clogging, ensuring the drainage cells maintain their functionality over time.
  2. Separation: It creates a barrier between the soil and drainage cells, maintaining the integrity of the drainage system. This separation avoids soil displacement and keeps the drainage structure stable.
  3. Reinforcement: Geotextiles add structural support by evenly distributing the load, which reduces stress on the drainage cells, enhancing their durability.
  4. Improved Efficiency: By keeping the drainage cells free from sediment buildup, geotextile ensures consistent water flow, maximizing performance and longevity.

In combination, these benefits protect the drainage system, reducing maintenance needs and extending its service life significantly.

How do Drainage Cells contribute to sustainable development?

Drainage cells contribute to sustainable development in several impactful ways:

  1. Efficient Water Management: Drainage cells facilitate proper water drainage, reducing waterlogging and allowing rainwater harvesting. This promotes water conservation and reuse, aligning with sustainable water resource management.
  2. Support for Green Infrastructure: They are commonly used in green roofs, vertical gardens, and landscaped podiums, promoting urban greenery and improving air quality while reducing urban heat island effects.
  3. Eco-Friendly Materials: Many drainage cells are made from recycled plastics, reducing plastic waste and promoting circular economy practices.
  4. Erosion Control: By managing surface runoff and maintaining soil stability, drainage cells help prevent erosion, preserving natural landscapes.
  5. Energy Efficiency: In applications like green roofs, they provide thermal insulation, reducing energy consumption for cooling and heating buildings.
  6. Durability and Low Maintenance: Their long lifespan and minimal maintenance needs reduce resource consumption over time, making them a cost-effective and sustainable choice.

By improving water management, supporting greenery, and minimizing environmental impact, drainage cells play a critical role in sustainable urban development.

How do I maintain a Drainage Cell system?

Maintaining a Drainage Cell system ensures its long-term efficiency and functionality. Here are the key steps to maintain it:

  1. Regular Inspection: Periodically check the system for any signs of clogging, water pooling, or damage. Focus on areas where debris or sediment might accumulate.
  2. Clean Filters and Geotextile: Inspect the geotextile layer to ensure it remains free of sediment buildup or blockage. If clogged, clean or replace it to maintain proper water flow.
  3. Debris Removal: Clear any leaves, soil, or plant debris from the surface, especially in green roofs or landscaped areas, to prevent material from entering the drainage cells.
  4. Check Water Outlets: Ensure all drainage points and outlets remain unblocked and free from sediment or vegetation overgrowth to maintain proper water flow.
  5. Root Management: In vegetated areas, monitor root growth to prevent roots from infiltrating or damaging the drainage cells over time.
  6. Inspect Structural Integrity: Check for cracks, deformations, or damage to the drainage cells, especially after heavy rainfall or construction activities nearby.
  7. Replenish Soil and Plants: For green areas, maintain the health of plants and soil above the drainage system to prevent excess soil erosion or compaction that may affect performance.

By conducting these regular checks and maintenance tasks, the Drainage Cell system will remain functional, ensuring effective water management and a longer lifespan.

How thick are Drain Cells?

Drainage cells typically come in thicknesses ranging from 20 mm to 50 mm, depending on their application and design.

  • 20 mm: Commonly used for small-scale projects like balconies, planter boxes, and lightweight green roofs where minimal water drainage is needed.
  • 30 mm: Suitable for medium applications such as podium gardens, landscaped areas, and subsoil drainage.
  • 50 mm: Ideal for heavy-duty applications like large green roofs, retaining walls, and sports fields where greater water flow and load-bearing capacity are required.

The specific thickness depends on factors such as load-bearing requirements, water retention capacity, and project scale.

How do you install Drain Cells?

Installing Drainage Cells is a systematic process that ensures effective water management. Follow these steps for proper installation:

1. Site Preparation
  • Clean the area: Remove debris, soil, and other obstructions to create a smooth, even surface.
  • Waterproofing (if needed): Apply a waterproofing membrane on surfaces like rooftops or podiums to prevent water leakage.
2. Install Geotextile Fabric
  • Lay a non-woven geotextile over the prepared surface.
  • Ensure the fabric covers the entire area and overlaps at the joints to prevent soil or debris from entering the drainage system.
3. Place the Drainage Cells
  • Position the drain cells on top of the geotextile fabric.
  • Connect the cells by interlocking them (most systems have built-in connectors) to form a continuous drainage layer.
  • Trim the cells where necessary to fit edges and corners using a utility knife or saw.
4. Add Another Layer of Geotextile
  • Place a second layer of geotextile fabric on top of the drain cells if required. This helps filter fine particles and maintain water flow.
5. Backfilling and Finishing
  • For green roofs or landscaped areas: Add soil or a growing medium evenly on top of the geotextile. Avoid compacting the soil too tightly to ensure proper drainage.
  • For paving or concrete applications: Add sand, gravel, or another base layer before laying the final surface.
6. Test the System
  • Conduct a water flow test to confirm proper drainage and identify any potential blockages or misalignments.
7. Final Layer Installation
  • Install the final surface, such as soil, grass, paving stones, or tiles, depending on the application.
Tips for Success:
  • Use high-quality geotextile to avoid clogging.
  • Ensure proper overlap of geotextile at the joints.
  • Regularly check the alignment and interlocking of drain cells during installation.

By following these steps, the Drainage Cell system will perform optimally, providing long-lasting water management solutions.

Example of using Drainage Cell in Australia?

One notable example of Drainage Cell usage in Australia is in the construction of green roofs and podium gardens for sustainable urban development. For instance:

Project: One Central Park, Sydney

  • Application: Drainage cells were installed beneath green roofs, landscaped podiums, and vertical gardens.
  • Purpose: To manage stormwater, prevent waterlogging, and promote healthy plant growth while reducing structural load.
  • Benefits: The drainage cells allowed excess water to flow efficiently to collection points while maintaining soil moisture levels for plants. This improved the building’s energy efficiency, supported urban greenery, and contributed to stormwater management.

In Australia, drainage cells are widely used in projects emphasizing water-sensitive urban design (WSUD), green infrastructure, and sustainable landscaping, reflecting the country’s commitment to environmental sustainability.

Where can non-woven geotextiles be practically applied?

Non-woven geotextiles have a wide range of practical applications across various industries due to their versatility and functional properties. Here are some key areas where they are commonly applied:

  1. Road and Highway Construction:
    Non-woven geotextiles are used as separation layers to prevent mixing of subgrade and aggregate materials, improving road stability and longevity.
  2. Drainage Systems:
    Their permeability makes them ideal for drainage applications, such as in French drains, retaining walls, or subsurface drainage systems, allowing water to flow while filtering out soil particles.
  3. Erosion Control:
    These geotextiles protect slopes, riverbanks, and coastal areas by preventing soil erosion, especially in projects with high water flow or rainfall.
  4. Landfills and Waste Containment:
    Non-woven geotextiles act as protective barriers and filtration layers in landfill liners, preventing contamination of surrounding soil and water.
  5. Agriculture and Landscaping:
    Used as weed control fabrics, they suppress weed growth while allowing water and nutrients to penetrate the soil, enhancing crop health and garden aesthetics.
  6. Pond and Reservoir Liners:
    Non-woven geotextiles provide a cushioning layer to protect impermeable liners from punctures and wear, extending their lifespan.
  7. Railway Construction:
    They stabilize the ballast and subgrade, ensuring proper load distribution and reducing maintenance needs for railway tracks.
  8. Pipeline Protection:
    In oil and gas projects, non-woven geotextiles are used to wrap pipelines, preventing corrosion and physical damage from surrounding materials.

These applications highlight the material’s adaptability to various environmental and structural challenges, making non-woven geotextiles a valuable component in modern engineering and construction.

 

What is the purpose of a Drain Cell?

The primary function of a Drain Cell is to enhance drainage systems, ensuring efficient water management. Utilizing drainage cells offers several advantages, including minimizing waterlogging, reducing the risk of soil erosion, and protecting waterproofing membranes. Additionally, these cells support plant health by promoting proper aeration and preventing root rot, making them ideal for green roofs and landscaping projects. This ensures plants thrive in well-drained environments, fostering sustainable and functional landscaping designs.