deckard452
Structural
- Aug 28, 2003
- 6
Yep, you heard right.
I'm desining a 15m (metre - say 50 feet) tall by approx 50m (165 feet) long retaining wall on a mine site so that ore trucks can back up and dump ore into a hopper that feeds a crusher.
Normally these are done with reinforced earth strapped back to solid anchors or a concrete structure. In the remote parts of North Western Australia, concrete is extraordinarily expensive. So steel must be used wherever possible.
The client has his mind set on a new approach (I've never seen it before). Basically, construct two 15m diameter steel tanks (8-10mm wall thickness) 15m tall side by side. Then each side of that you have two smaller (13m dia, 13m tall) tanks. Fill and compact local soil in the bins which will now act as a very large gravity retaining walls. A straight edge for dumping is given by bridging between the tangent points on the larger tanks and dropping a number of heavy steel columns to reduce the loads
I have problems relating to how these will work with regard to ovaling under asymmetric loading, local wall stresses under global bending + the weight of a large concrete apron on top plus the 400 odd tonne haul truck. I also need to consider the draw down forces of friction during compaction increasing the compression in the shell wall.
All this, let alone the issues of how do you construct these.
I'm not asking for an answer to all my questions here but does anyone know of this system being used anywhere - ever?
Even better would be a case of somebody considering it but discounting it for whatever reason. I've tried the cost side of it but the client is convinced it will be cheaper.
I'm desining a 15m (metre - say 50 feet) tall by approx 50m (165 feet) long retaining wall on a mine site so that ore trucks can back up and dump ore into a hopper that feeds a crusher.
Normally these are done with reinforced earth strapped back to solid anchors or a concrete structure. In the remote parts of North Western Australia, concrete is extraordinarily expensive. So steel must be used wherever possible.
The client has his mind set on a new approach (I've never seen it before). Basically, construct two 15m diameter steel tanks (8-10mm wall thickness) 15m tall side by side. Then each side of that you have two smaller (13m dia, 13m tall) tanks. Fill and compact local soil in the bins which will now act as a very large gravity retaining walls. A straight edge for dumping is given by bridging between the tangent points on the larger tanks and dropping a number of heavy steel columns to reduce the loads
I have problems relating to how these will work with regard to ovaling under asymmetric loading, local wall stresses under global bending + the weight of a large concrete apron on top plus the 400 odd tonne haul truck. I also need to consider the draw down forces of friction during compaction increasing the compression in the shell wall.
All this, let alone the issues of how do you construct these.
I'm not asking for an answer to all my questions here but does anyone know of this system being used anywhere - ever?
Even better would be a case of somebody considering it but discounting it for whatever reason. I've tried the cost side of it but the client is convinced it will be cheaper.
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