Results 51 to 60 of about 194 (141)
Biodecolorization of Reactive Blue 19 Dye from Effluents by Sorption on Aspergillus brasiliensis Fungal Biomass [PDF]
Water quality resources in the current context of excessive pollution, are in constant decline. This involves a much better control over the water pollution phenomenon. Thus, strategies are needed to maintain effluent control.
POHONŢU Corneliu Mihăiţă
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BIOREMEDIATION OF CHEMICAL POLLUTANTS- CONTAMINATED WATER A-BIODECOLORIZATION OF CRYSTAL VIOLET CONTAMINATED WATER BY Pseudomonas geniculata [PDF]
Biodcolorization of crystal violet (C V) was investigated in aquatic system. C V decolorizing bacterium (designated isolate AT 17) was isolated from effluent sample using enrichment technique by clear zone formation. Based on morphological, physiological
A. I. Gad +3 more
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The ability of the tropical white-rot fungi and their enzyme to decolorize synthetic dyes was investigated. Production of lignin-modifying enzymes (LMEs) from the three new isolated fungi, namely Trametes hirsuta D7, Ceriporia sp. BIOM 3, and Cymatoderma
Sita Heris Anita +2 more
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Biodecolorization of Reactive Black 5 by laccasemediator system
Reactive azo dyes are widely used as textile colorants, typically for cotton dyeing, due to their variety of color shades, and minimal energy consumption. In the present study, commercial laccase from Trametes versicolor was used for the biodecolorization of Reactive Black 5 (RB-5) dye using different redox mediators viz, N-hydroxybenzotriazole (HBT ...
Bibi, Ismat, Bhatti, Haq Nawaz
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Comparative Study on Biodecolorization Capabilities of Indigenous Strains to Azo Dyes [PDF]
This study is to inspect the biodecolorization capabilities of indigenous strains to azo dyes (RR198, RR141, RBk5, RBu160, RBu171, DY86, RY84 and RG19). Shewanella sp. WLP72 isolated under selection pressure of decolorization of RBu160 upon gut microbial consortia of Babylonia areolate showed the optimal color removal capability.
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Biodecolorization and biodegradation of Reactive Blue by Aspergillus sp.
Aspergillus sp. effectively decolorized Reactive Blue and other structurally different synthetic dyes. Agitation was found to be an important parameter, while glucose (99%), sucrose (97%) and mannitol (98%) were the best carbon sources for the decolorization. Decolorization was effective in an acidic environment (pH 3).
Ramya, M +3 more
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Biodecolorization of Textile Dye Effluent by Biosorption on Fungal Biomass Materials
AbstractColored industrial effluents have become a vital source of water pollution, and because water is the most important natural source; its treatment is a responsibility. Usually colored wastewater is treated by physical and chemical processes. But these technologies are ineffective in removing dyes, expensive and not adaptable to a wide range of ...
Kabbout, Rana, Taha, Samir
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Biodecolorization by microorganisms is a potential treatment technique because they seem to be environmentally safe. In the present study, the decolorization and detoxification of cotton blue, crystal violet, malachite green and methyl violet by ...
Tiancong Gao +7 more
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Biodecolorization of acid violet 19 by Alternaria solani
Microorganisms are the nature’s tools for cleaning the environment. Bioremediation using bacteria, fungi and algae is becoming an attractive option for the treatment of industrial effluents containing awide spectrum of pollutants including dyes and heavy metal ions.
Ali, H, Muhammad, SK
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The biological decolorization of two industrial, spent textile reactive dyebaths was investigated using a suspended-growth, halophilic mixed culture fed with glucose. Dyebath I contained mainly Reactive Blue 19 (RB19), an anthraquinone dye, whereas dyebath II contained mainly Reactive Blue 21 (RB21), a phthalocyanine dye.
Y H, Lee +2 more
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