Installation efficiency is aided by larger module sizes with less components. By increasing the footprint of each module, more cubic metres of storage can be installed with less total handling, assembly and on-site labour.
Larger modules with fewer components lead to reductions in the complexity of assembly across the entire tank volume – effectively scaling these efficiencies across large scale OSD projects as additional modules are needed.
We compare the dimensions of different geocellular tank systems below –
System | Module Size |
---|---|
AtlanCube | 1150mm x 1150mm x 780mm |
Graf Ecoblock SMART | 800mm x 800mm x 330mm |
Frankische Rigofil ST | 800mm x 800mm x 660mm |
Frankische Rifofil ST-B | 800mm x 800mm x 660mm |
Atlantis Flo-Tank | 685mm x 408mm x 450mm |
Atlantis Flo-Vault | 575mm x 575mm x 500mm |
ACO Stormbrixx SD | 1200mm x 600mm x 914mm |
ACO Stormbrixx HD | 1205mm x 602mm x 612mm |
Rainsmart Ellipse | 715mm x 400mm x 440mm |
AtlanCube has a larger module size than alternative systems – measuring 1150mm x 1150mm x 780mm. This enhances installation efficiencies, which reduces on-site installation timeframes.
By increasing the footprint of each module, AtlanCube ensures that more cubic metres of storage can be installed with less total labour requirements.
This is further aided by its simplicity – with the design incorporating no internal walls, and low component counts per module. This means that each cubic metre of AtlanCube storage can be assembled with fewer components.
2 https://www.graf.info/en-au/stormwater/ecobloc/ecobloc-smart.html
5,6 https://atlantiscorporation.com.au/flo-tank-underground-water-tank/
https://atlantiscorporation.com.au/flo-vault-underground-water-storage/
7,8 https://www.acostormbrixx.com.au/stormbrixx/spec-info/StormBrixx-SD-Spec-Info.pdf
https://www.acostormbrixx.com.au/stormbrixx/spec-info/StormBrixx-HD-Spec-Info.pdf