The bioremoval of Cr(VI) through biosorption and bioaccumulation using dead and living biomass of Trichoderma viride was investigated
in batch mode, since a few studies were found in the literature on this subject. The biosorbent is an indigenous fungal strain of
Trichoderma viride, isolated from a forest soil in an area from Iasi city, Romania.
Effects of pH, biomass dosage, metal concentration in the initial solutions, contact time and temperature were assessed. It was found that
the optimum pH for maximum removal efficiency is acidic for dead biomass and near the neutral value for living microorganisms. The
biosorption process of total Cr removal by dead T. viride biomass is endothermic. The experimental data modeling and FTIR analysis
showed that the mechanism of Cr(VI) removal by T. viride is based on a redox reaction. The linearized Langmuir isotherm had the best
fitting compared to the other models applied showing that sorption occurs in monolayer at 25 and 40°C. Kinetic data were evaluated by the
pseudo-first order and pseudo-second order adsorption kinetic models, together with pseudo-first order and pseudo-second order reduction
models.
The new fungal strain of T. viride has confirmed high uptakes and removal efficiencies in Chromium(VI) bioremoval