|
Assisted Device for Removal of Iron
From Contaminated Water for Drinking Purposes
Introduction
Iron is one of the most plentiful resources found in the
earth's crust. Rainfall seeping through the soil dissolves
iron in the earth's surface and carries it into almost all
kinds of natural water supply, including well water. Besides,
iron may also enter drinking water through rusted pipes carrying
this water.
Iron is not considered hazardous to human health in moderate
levels. In fact, iron is essential for good health because
it facilitates transportation of oxygen in blood. However,
when the level of iron in water exceeds 0.3 mg/l (ppm) limit,
people experience red, brown, or yellow staining of laundry,
glassware, dishes and household fixtures such as bathtubs
and sinks. The water may also have a metallic taste and an
offensive odour. Consumption of water with excess iron causes
constipation accompanied by other physiological disorders.
As per the Department of Natural Resources (DNR), iron is
considered a secondary or an "aesthetic" contaminant.
Present recommended limit for iron in water, 0.3 mg/l (ppm),
is based on taste and appearance rather than on any detrimental
health effect.
UF membrane assisted oxidation process for removal of iron
from ground/ surface water makes it safe for drinking purposes.
It is simple, cost effective, adaptable at both domestic as
well we community level and is capable of removing high levels
of iron.
The technologies of UF membrane device used in the process
are already available as separate technologies at domestic
level (Dead-end element type) and community level (Back washable
flow element type) with Bhabha Atomic Research Centre (BARC).
Alternately, these devices may also be procured directly from
manufacturers who are manufacturing and marketing these devices
in various capacities and configurations as BARC's licensees.
Salient Features:
- Crystal clear water free from turbidity, bio-contaminants,
iron contaminants etc.
- Compact and delivers stable output quality.
- Ensures continuous operation with less footprint area.
- Very low operating pressure of about 2-3 bar.
- Cross flow mode of operation.
For further information please contact
:
Bhabha Atomic Research Centre,
Trombay, Mumbai- 400 085
Tel : 091-022-25505337/25593897
Fax : 091-022-25505151
Email : headttcd@barc.gov.in
|
