Gel entrapped nitrifiers may be used in wastewater treatment plants as the
main N-removal system, or as an additive to existing biofilm or sludge syst
ems. In any case, gel entrapped nitrifiers may be stored for safety measure
s and added in cases of a collapse of the activity in the plant. Different
preservation techniques; freezing, drying and lyophilization, were evaluate
d as means to optimize the conservation of the nitrification activity immob
ilized in PVA-SbQ gel beads during storage. Glycerol, sucrose and trehalose
were added in various amounts as cryoprotectants. After 2-3 months of stor
age, the nitrifiers were reactivated in 450 ml CSTR using a synthetic nitri
fication medium with excess ammonium. Beads frozen without any additives or
in 15% glycerol maintained 60% and 40% of the original nitrification rate
they had before conservation, respectively. After preservation by drying an
d lyophilization, 10% or less of the activity was recovered. However, even
those beads reached 100% of the previous activity within 4-9 d of cultivati
on. In the case of drying, addition of 10 mM trehalose improved the initial
activity significantly. When lyophilized, the presence of protectants up t
o 100 mM seemed to have a positive effect on the reactivation of the nitrif
iers. The stress of the drying process apparently altered the structure of
the gel beads so that they never fully regained the initial shape and volum
e, but without any significant loss in the obtainable maximum activity. It
is concluded that for long time storage at a wastewater treatment plant, fr
eezing without any additives should be the preferred preservation technique
. For transportation, however, when weight and size are important economica
l factors, drying may be a better alternative. (C) 1998 Elsevier Science Lt
d. All rights reserved.