Description
AquaBlox D-Raintank Small Modules
The AquaBlox D-Raintank small modules represent a revolutionary approach to water storage projects and water feature construction, offering unparalleled efficiency, versatility, and sustainability. Manufactured using recycled materials, these lightweight modules provide essential area or void space for various water storage applications while minimizing environmental impact.
With over three times more water storage capacity than traditional gravel, the AquaBlox D-Raintank modules are designed to maximize efficiency and performance. Each module holds approximately 7.4 gallons of water per cubic foot, significantly surpassing the water-holding capacity of gravel, which holds approximately 2.2 gallons of water per cubic foot. This extra water storage capacity translates to reduced maintenance requirements, as less time is spent topping off reservoirs due to evaporation.
The innovative design of the AquaBlox D-Raintank modules offers numerous advantages over traditional gravel basins. These modules are easier to clean and less prone to clogging, ensuring optimal functionality and longevity. Additionally, their ability to hold more water per cubic foot allows for a smaller reservoir footprint, saving valuable space and reducing excavation and labor requirements.
Utilizing AquaBlox D-Raintank modules also results in significant material savings, as less liner and geotextile underlayment are required compared to reservoirs constructed with gravel. This not only reduces project costs but also minimizes environmental impact by conserving resources.
Features & Benefits
Size: Each module measures 26.5" in length, 16" in width, and 9.5" in height.
Volume: Offers a generous volume of 17 gallons per module.
Load Bearing Weight: Capable of supporting a load-bearing weight of 5,472 lbs. per square foot, ensuring structural integrity and stability.
Sustainable Construction: Manufactured using recycled materials, promoting environmental sustainability and reducing waste.
Enhanced Efficiency: Provides over three times more water storage capacity than gravel, minimizing maintenance and topping off requirements.
Space-Saving Design: Ability to hold more water per cubic foot allows for a smaller reservoir footprint, maximizing available space.
Labor and Material Savings: Requires less excavation, liner, and geotextile underlayment compared to traditional gravel basins, reducing labor and material costs.
