Abstract:
Widespread arsenic contamination and presence of high concentration of iron in groundwater
are major water quality problem in Bangladesh, where water supply is heavily dependent on
groundwater. Although a few household arsenic removal units have been developed and
tested in the field, little attempt has been made in the development of a community type
arsenic-iron removal unit.
The present study focused on development of a community based arsenic-iron removal unit
(AlRU) adopting the technique of adsorption and co-precipitation of arsenic onto the flocs of
ferric hydroxide, making use of the naturally occurring iron of groundwater. In order to
simulate the field conditions in Bangladesh, in addition to laboratory model tests, five
treatment units were constructed and their performance was monitored in different water
quality conditions of the country. The AlRU, which is attached to a tubewell, has mainly two
chambers, down-flow flocculator and up-flow roughing filter. The flocculation and roughing
filtration processes in the AlRU were accomplished through the use of coarse media gravel
beds.
The operation and maintenance of the developed AlRU are simpler and more user friendly in
comparison to the previously developed community based water treatment units. The
reduction of flow of treated water for the AlRU was not significant in comparison to the
tubewell water flow (initially 82% and after six weeks of operation 63%). The clogging and
maintenance requirement of the AlRU was not frequent and the cleaning procedures were
simple. Cleaning was performed without removing the coarse media gravel beds from the
AlRU and the chance of external bacterial contamination was almost negligible.
The AlRU was constructed by local mason using locally available materials. Raw water with
arsenic concentration up to 200ppb and the iron-arsenic concentration ratio ~ 30 (by weight)
was treated with the AlRU satisfying Bangladesh Standards (50ppb As) without using any
chemicals. For arsenic concentration above 200ppb and iron-arsenic concentration ratio < 30,
intermittent dosing of an oxidizing agent (bleaching powder) was required. Use of sorptive
media (Read-F), in addition to AlRU, eliminated the use of oxidizing agent and this would
increase the active life of Read-F media significantly.
Iron removal efficiency up to 90% was achieved through the AlRU for the face velocity less
than 0.5 m31m2-hr and the removal efficiency was a function of raw water iron concentration
and it increased with the passage of time. Number of beneficiaries and water consumption
was increased by about 10 folds after the installation of the AlRU.