15.2 Photobiological Agents and Methods Used in PhotoBiological Reactors

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Table 15.1

Various photobiological agents used in photobiological reactors with their use

and prevalent examples.

Pollutant

Method of Removal

Degradation of perfluorinated

compounds (PFCs) in

wastewater

Electrochemical oxidation was proposed for remediation

of PFCs from wastewater

Four anode materials were tested – aluminum, stainless

steel, Ti, Ti coated with nano-ZnO

Ti coated with nano-ZnO anode exhibits an excellent

removal of PFCs

Degradation of dissolved

organic compounds in

wastewater

In a typical visible light sensitive TiO2 preparation by

wet chemical methods, the chemical (e.g. N-doping

content and states) and morphological properties (e.g.

particle size, surface area) of TiO2

Removal of colorants from

wastewater

Lactobacillus delbruckii used for the removal of dyes. It

involves the use of two commercial synthetic dyes i.e.

reactive orange and black. The effect of different

parameters such as pH, temperature, initial dye

concentrations were studied and effectiveness of this to

remove the dye solution was determined by measuring

the percentage of color removal. The bacteria was able to

decolorize these dyes and the optimum parameters were

found to be 10 ppm, pH 6.0, and 37 ^∘C.

Uses: economical and ecofriendly

n-Hexadecane degrading

A strain of Acinetobacter baumannii was isolated from

HC contaminated wastewater and examined for its

ability to utilize hexadecane and grow as n-hexadecane

as a sole source of carbon and energy. Disadvantage:

expensive.

Removal of dyes from

wastewater

The potential of microorganisms such as

Cunninghamella elegans, Aspergillus niger, Bacillus

cereus, Chlorella sp., and also Citro bactor is used in

removal of dyes

15.2.1.10

Laccase Production on Eichhornia crassipes Biomass

The study explores the utilization of biomass of the weed species, Eichhornia

crassipes for laccase production by using pycnoporus sanguineus SYBC-L1. As the

sole carbon and nitrogen source, E. crassipes will produce laccase (7.26 U/g dry

substrate). The fermentation medium for the maximum enzyme production was

optimized and the laccase was then purified and characterized. The optimized

culture medium contains 25.1% E. crassipes, 13.9% sawdust, 1.5 mM CuSO4, and

40 mM gallic acid (65% moisture and initial pH 6.0), and maximum laccase activity

of 32.02 U/g dry substrate was detected on ninth day, which was 4.5-fold compared

with the earlier medium. The molecular mass of the purified Lac-S was 58.4 kDa,

and the optimum activity of Lac-S on DMP (2,6-dimethoxyphenol) was at pH 3.0

and 70 ^∘C. Lac-S showed not only high catalytic action at low temperature, but also

good stabilities toward pH and temperature, and the residual catalytic activities