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Removal of Heavy Metals using Microbial Bioremediation
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The unorganized dumping of effluents along with different wastes directly
into the water and soil has resulted in the rise of the concentration of many harmful
metals, chemicals, and other gases in the environment. Widely known heavy metals
triggering pollution issues are Lead (Pb), Chromium (Cr), Mercury (Hg), Cadmium
(Cd), Copper (Cu), Arsenic (As) and Selenium (Se), as these heavy metals are
generally found in the effluents of fertilizers, metallurgy, electroplating, and electronics
industries. A number of physical-chemical reactions such as acid-base, oxidation-reducing, precipitation- dissolution, solubilization and ion-exchange processes occur
and affect metal speciation. The physical methods used for heavy metals removal
include magnetic separation, electrostatic separation, mechanical screening method,
hydrodynamic classification, gravity concentration, flotation, and attrition scrubbing.
The chemical methods used for eliminating heavy metals are chemical precipitation,
coagulation and flocculation processes and the heavy metals are therefore removed as
sludge. Electro-deposition, membrane filtration, electro-flotation and electrical
oxidation are the various electrochemical treatment methods that are used to remove
heavy metals from wastewater. Bioremediation is a biological method of eliminating
toxins from the environment by using biological microbial bacteria such as
Pseudomonas and Sphingomonas. Examples of bioremediation technologies include
field farming, bioleaching, phytoremediation, bioventing, bioreactor, bio-stimulation
and composting. Bioremediation is a natural process and is quite applicable as a waste
treatment process for contaminated soils. The microbes present in the solution or soil
can degrade the pollutants. It can also prove to be less expensive than other technologies that are used for clean-up of hazardous waste and are also useful for
the destruction of a wide variety of contaminants as many hazardous compounds can be
transformed into harmless products.<br>
Title: Removal of Heavy Metals using Microbial Bioremediation
Description:
The unorganized dumping of effluents along with different wastes directly
into the water and soil has resulted in the rise of the concentration of many harmful
metals, chemicals, and other gases in the environment.
Widely known heavy metals
triggering pollution issues are Lead (Pb), Chromium (Cr), Mercury (Hg), Cadmium
(Cd), Copper (Cu), Arsenic (As) and Selenium (Se), as these heavy metals are
generally found in the effluents of fertilizers, metallurgy, electroplating, and electronics
industries.
A number of physical-chemical reactions such as acid-base, oxidation-reducing, precipitation- dissolution, solubilization and ion-exchange processes occur
and affect metal speciation.
The physical methods used for heavy metals removal
include magnetic separation, electrostatic separation, mechanical screening method,
hydrodynamic classification, gravity concentration, flotation, and attrition scrubbing.
The chemical methods used for eliminating heavy metals are chemical precipitation,
coagulation and flocculation processes and the heavy metals are therefore removed as
sludge.
Electro-deposition, membrane filtration, electro-flotation and electrical
oxidation are the various electrochemical treatment methods that are used to remove
heavy metals from wastewater.
Bioremediation is a biological method of eliminating
toxins from the environment by using biological microbial bacteria such as
Pseudomonas and Sphingomonas.
Examples of bioremediation technologies include
field farming, bioleaching, phytoremediation, bioventing, bioreactor, bio-stimulation
and composting.
Bioremediation is a natural process and is quite applicable as a waste
treatment process for contaminated soils.
The microbes present in the solution or soil
can degrade the pollutants.
It can also prove to be less expensive than other technologies that are used for clean-up of hazardous waste and are also useful for
the destruction of a wide variety of contaminants as many hazardous compounds can be
transformed into harmless products.
<br>.
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