4B
Group’s modern polymer buckets are a great solution for companies looking to
enhance their existing elevator bucket solutions.
Customers of the company had undertaken a continuous improvement programme of upgrading older types of steel elevator buckets for modern efficient types of polymer elevator buckets. The older style fabricated steel buckets were of a similar geometry to CC type buckets. Trials commenced utilising several types of CC poly buckets, all of which proved to be inefficient and backlegged rice so significantly throughput was decreased by 40 tonnes-per-hour (tph) and wear damage to the casings had occurred through the recirculation of materials.
4B was contacted and asked to consult and were engaged to provide a solution, which included providing suitable system belt speeds, adjustments to outlet chutes and selecting a suitable polymer style bucket that would not compromise the capacity of the system and operations.
The solution came to light via a complete and thorough evaluation being undertaken of belt and pulley speeds, discharge efficiencies and actual volumetric filling factors of individual buckets. This was then assessed against the existing discharge chute design, which favoured the older style steel fabricated buckets.
In particular, the actual centripetal acceleration that was expected to occur with the modern polymer buckets was calculated and then cross referenced with the vertical and horizontal distances available within the existing discharge chute.
The combined results provided 4B engineers with the exact information required for selecting a suitable bucket, adjusting the angle of the outlet chute and applying a belt speed reduction. This increased individual volumetric filling and reduced backlegging.
Read more HERE.
Customers of the company had undertaken a continuous improvement programme of upgrading older types of steel elevator buckets for modern efficient types of polymer elevator buckets. The older style fabricated steel buckets were of a similar geometry to CC type buckets. Trials commenced utilising several types of CC poly buckets, all of which proved to be inefficient and backlegged rice so significantly throughput was decreased by 40 tonnes-per-hour (tph) and wear damage to the casings had occurred through the recirculation of materials.
4B was contacted and asked to consult and were engaged to provide a solution, which included providing suitable system belt speeds, adjustments to outlet chutes and selecting a suitable polymer style bucket that would not compromise the capacity of the system and operations.
The solution came to light via a complete and thorough evaluation being undertaken of belt and pulley speeds, discharge efficiencies and actual volumetric filling factors of individual buckets. This was then assessed against the existing discharge chute design, which favoured the older style steel fabricated buckets.
In particular, the actual centripetal acceleration that was expected to occur with the modern polymer buckets was calculated and then cross referenced with the vertical and horizontal distances available within the existing discharge chute.
The combined results provided 4B engineers with the exact information required for selecting a suitable bucket, adjusting the angle of the outlet chute and applying a belt speed reduction. This increased individual volumetric filling and reduced backlegging.
Read more HERE.
The Global Miller
This blog is maintained by The Global Miller staff and is supported by the magazine Milling and Grain
which is published by Perendale Publishers Limited.
For additional daily news from milling around the world: global-milling.com
No comments:
Post a Comment