Water question is surely one of the

Water question is surely one of the main factors that are
involved in the human development considering its influence on
human lives. Among the new techniques for water and wastewater
treatment there is the use of natural coagulants, aiming at a
better quality of treated water by reducing the use of chemicals.
Namely, coagulation/flocculation step which is essential process
in the treatment of both surface water and industrial wastewater,
includes removal of dissolved organic species and turbidity
from water most commonly via addition of conventional chemicalbased
coagulants – alum, ferric chloride and synthetic organic
polymers. While the effectiveness of these chemicals as coagulants
is well-recognized (Edzwald, 1993; Kang et al., 2003) there
are, nonetheless, disadvantages associated with their usage such
as ineffectiveness in low-temperature water (Haaroff and Cleasby,
1988), relatively high procurement costs, detrimental effects on
human health, production of large sludge volumes and the fact that
they significantly affect pH of treated water. There is also strong evidence
linking aluminum-based coagulants to the development of
Alzheimer’s disease in human beings (Flaten, 2001). It is therefore
desirable to replace these chemical coagulants with plant-based
coagulants to counteract the aforementioned drawbacks.Thus, in water treatment, the use of natural coagulants could
be an option with many advantages over chemical agents, particularly
the biodegradability, low toxicity and low residual sludge
production (Narasiah et al., 2002). Biopolymers may be of great
interest since they are natural low-cost products, characterized
by their environmental friendly behavior and usually have large
number of surface charges that increase the efficiency of the coagulation
process. These advantages are especially augmented if the
plant from which the coagulant is extracted is indigenous to local
community. In recent numerous studies variety of plant materials
has been reported as a source of natural coagulants (Raghuwanshi
et al., 2002; Diaz et al., 1999; Miller et al., 2008;ˇS´ciban et al., 2009)
but the most studied is Moringa oleifera whose efficiency has been
approved for turbidity removal (Ndabigengensere and Narasiah,
1998; Okuda et al., 2001; Ghebremichael et al., 2006) as well as
antimicrobial properties (Ghebremichael et al., 2005).
During the course of plants’ screening program in our laboratory,
crude extract from common bean (Phaseolus vulgaris) seed
was applied for water turbidity removal while partially purified
coagulant has shown high coagulation efficiency followed by low
organic load (Antov et al., 2010). Seed of common bean has food
grade nature and contains no oil, so, delipidation step is not necessary
which is beneficial for both economic and environmental
reasons. Considering this common bean is a promising source of
natural coagulant for water treatment.
The objective of the study was to experimentally evaluate the
efficiency of different fractions prepared by ultrafiltration of common
bean seed extract in water turbidity removal. Membraneseparation technique was applied instead of isolation and purification
multiple steps procedure to examine its suitability for the
processing of natural coagulant. Coagulation efficiencies of prepared
fractions were measured at different pH values and dosages,
and have been compared to the one of crude extract. In addition,
suitability of prepared natural coagulants was tested in respect of
organic load that remained in water after treatment.