You are viewing an old version of this page. View the current version.

Compare with Current View Page History

« Previous Version 136 Next »

Stacked Rapid Sand Filtration

A stacked rapid sand filtration unit is preferable to a conventional rapid sand filtration unit as it requires less water to back wash since the filters are stacked, and use the same water for all filter layers to back wash. In addition, a stacked filtration system requires a much smaller footprint to achieve the same level of filtration.

A vertically stacked filtration system meets many of the AguaClara Project constraints. Both normal filtration and back wash operations are gravity driven and require no electricity. In additon, it is an open system. The required construction materials (PVC pipes, sand, concrete, brick, and rebar) are relatively cheap and available in Honduras. Most importantly, stacked rapid sand filtration is proven to consistently lower the effluent to below 1 NTU.

Current Research

Full Scale Design

We are implementing the first full-scale stacked rapid sand filter as an addition to an existing plant that uses AguaClara technology.  It is about to come online in Tamara.  Data from this filter will serve as an important field test of the technology and will provide insight to improve future designs.

Bench-scale Research

We are using bench-scale columns to investigate fundamental questions relevant to stacked filtration technology.  For example:  is there a difference in particle removal performance between upflow and downflow layers?  What range of size and gradation is acceptable in sand media for an SRSF?

Pilot-scale Research

We are using the SRSF apparatus that has been developed over the past year primarily to test the hydraulics of the siphon control system.  We are also collecting data on distribution of flow among the filter layers.

Further Reading

General Filtration
Challenges
Theory and Design

Current Members

Michael Adelman

Documents

 

Challenges

Tasks

Teach-In

Presentation

Final Report

Summer '12

 

 

 

 

 

Fall '11



Spring '11

 

 

 

  • No labels