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Concepts:

In biological units such as the activated sludge process, the degradation of soluble organic matter can be performed by bacterial cultures which are usually predominant in the reactors.

  

This former is oxidized to water and carbon dioxide. However, particulate organic removal is usually more difficult and would require longer detention time. Increasing the number of specific types of desirable microbes through bi augmentation and hence modifying the distribution of species in the population may result in more particulate organics being degraded to soluble forms which can then metabolized by other bacteria.

Although the influent of a wastewater treatment plant may contain desirable naturally occurring bacteria, these when exposed to the different environment in a bioreactor may not multiply sufficiently to have a significant impact. While species selection of this nature may be desirable for enhancing the performance of treatment plants dealing with wastewater with characteristics that do not change, it may lead to poor adaptation and large drops in performance in reactors receiving wastewater with rapid changing characteristics. Bacterial augmentation allows for an avenue to introduce the appropriate microbes and adequate numbers of these to rapidly make up for any deficiencies in the existing microbial population.
 
 
Bioaugmentation
  
Viability Enhancement for BioSystem

Bioaugmentation in biological treatment processes is currently attracting some attention due to the potential benefits that may be derived from it. Generally, it has potential to enhance specific organic (both carbonaceous and nitrogenous) removal. Increase biological process stability, improve recovery from upsets, and extend treatment system capacity.

 

Although a treatment process would still depend on natural microbial processes to maintain a sufficient and diverse population for organic removal, bioaugmentationoffers a means to very rapidly midify the numbers of specific types of bacterial in the population.
 

For municipal and industrial biology treatment plants. Typical uses are rapid start up a new treatment facilities, quicker recovery from shock loads and improved removal performance in overloaded or undersized plants. Particularly effective for tough industrial wastes. The typical benefits include: Nutrification System, Sludge Reduction System and Grease Reduction System.