Biosorption for Wastewater Contaminants. Группа авторов

Biosorption for Wastewater Contaminants - Группа авторов


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of yeast were studied using various forms, including free vs. immobilized cells, dead vs. live cell, engineered vs. non‐engineered cell, etc. (Park et al., 2003). The yeast cells in free form are not suitable for biosorption as there is a problem in solid‐fluid phase separation. In flocculating cells, this problem tends less effective (Veglio and Beolchini, 1997). Yeast cells must be pretreated to increase the surface‐to‐volume ratio of metal binding sites (Mapolelo, 2004).

Fungal biomass (biosorbent) Metal ions (biosorbate) Functional groups References
Pleurotus ostreatus Chromium Carboxyl, amine groups (Arbanah et al., 2013)
Hydrilla verticillata Cadmium Carboxyl, hydroxyl, amine groups (Acosta Rodríguez et al., 2013)
Aspergillus terreus Copper Carboxyl groups (Gulati et al., 2002)
Trametes versicolor Nickel Carboxyl, hydroxyl, amine groups (Subbaiah and Yun, 2013)
Penicillium chrysogenum Arsenic Carboxyl, amino groups (Mamisahebei et al., 2007)
Phanerochaete chrysosporium Lead Hydroxyl, amino groups (Haluk Ceribasi and Yetis, 2004)
Pencillium simpliccium Zinc Carboxyl, amino groups (Fan et al., 2008)
Aspergillus fumigatus Mercury Amino, hydroxyl groups (Mamisahebei et al., 2007)

      Biosorbents Derived from Plant and Animal Waste

      Solid wastes derived from flora and fauna are plentiful, low‐cost, renewable resources. They're made in vast quantities every year, and disposing of them is usually a problem. An important area of research is to find meaningful uses for these materials. They can be used to minimize waste and create cost‐effective products (Kulkarni, 2014).

Yeast biomass(biosorbent) Metal ions(biosorbate) References
Candida utilis Chromium (Anaemene, 2012)
Saccharomyces cerevisiae Cadmium (Das et al., 2008)
Saccharomyces cerevisiae Cobalt (Arakaki et al., 2011)
Candida pelliculosa Copper (Apinthanapong and Phensaijai, 2009)
Mucor rouxii Lead (Muraleedharan et al., 1991)
Saccharomyces cerevisiae Mercury (Anaemene, 2012)
Saccharomyces cerevisiae Nickel (Siñeriz et al., 2009)
Thiobacillusthiooxidans Zinc (Nagashetti et al., 2013)
Plant waste Metal Adsorption capacity Reference
Wheat bran Mercury 82% (Farajzadeh and Monji, 2004)
Black gram husk Lead 93% (Saeed et al., 2005)
Rice bran Cadmium 80% (Montanher et al., 2005)
Baggase Zinc 90–95% (Mohan and Singh, 2002)
Activated carbon of peanut shells Nickel 75% (Wilson et al., 2006)
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