This advantages of bioremediation pdf shows the electron orbitals of the element uranium which has 92 protons. It was discovered in the mid 1900s that microorganisms use metals in the cell. Bacteria can be inoculated into environments contaminated with metals, oils, or other toxic compounds.
The bacteria can clean the environment by absorbing these toxic compounds to create energy in the cell. Microbes can achieve things at a chemical level that could never be done by humans. Bacteria can mine for metals, clean oil spills, purify gold, and use radioactive elements for energy. 2,000 and 26,000 ppm ferrous iron. He discovered that the bacteria grew faster and were more motile in high iron concentrations. The byproducts of the bacterial growth caused the media to turn very acidic, in which the microorganisms still thrived. Kenneth Temples experiment proved that microorganisms have mechanisms for sensing and taking up metals for use in the cell.
This discovery lead to the development of complex modern biomining systems. Biomining is the use of microorganisms to leach metals from their growth medium. These systems can be used for bioremediation, biohydrometallurgy, or even extracting metals from ores for commercial use. It was later discovered that some fungi also leach metals from their environment. It has been shown that some microorganisms have a mechanism for taking up radioactive metals such as uranium and thorium. The development of industrial mineral processing using microorganisms has been established now in several countries including South Africa, Brazil and Australia. Iron-and sulfur-oxidizing microorganisms are used to release copper, gold and uranium from minerals.
Electrons are pulled off of sulfur metal through oxidation and then put onto iron, producing reducing equivalents in the cell in the process. Using Bacteria such as Acidithiobacillus ferrooxidans to leach copper from mine tailings has improved recovery rates and reduced operating costs. Moreover, it permits extraction from low grade ores – an important consideration in the face of the depletion of high grade ores. All of these microbes are gaining energy by oxidizing these metals.
Oxidation means increasing the number of bonds between an atom to oxygen. The resulting electrons will reduce iron, releasing energy that can be used by the cell. This research often results in technology implementation for greater efficiency and productivity or novel solutions to complex problems. Additional capabilities include the bioleaching of metals from sulfide materials, phosphate ore bioprocessing, and the bioconcentration of metals from solutions. One project recently under investigation is the use of biological methods for the reduction of sulfur in coal-cleaning applications. From in situ mining to mineral processing and treatment technology, biotechnology provides innovative and cost-effective industry solutions.