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Technical Description <br /> As the bacteria die, an enzyme dissolves a portion of the cell wall, allowing the remaining nutrient <br /> contents in the cell to escape and thus'furnishing the remaining cells with a little more food. This <br /> process is called lysing (after lysin, a specific antibody that destroys blood cells, tissues, and <br /> microorganisms), and is a natural process which allows living bacteria to obtain nutrients from their <br /> dead neighbors. <br /> If the aeration period were allowed to continue,the bacterial population would continue to decrease. <br /> The free-swimming ciliates would die out completely and the stalked ciliates would start to decrease, <br /> but rotifers would start to increase. Rotifers eat small particles of the floc and do not depend upon <br /> individual cells as do protozoa. <br /> Too long an aeration period would result in death of all biological forms;only the inert fraction of the <br /> cells would remain. Activated sludge is never allowed to go this far in the aeration cycle of the Bio- <br /> Pure system without being moved on to the next step in the process. <br /> During the endogenous phase,the floc colonies are separated from the liquid before clarification. This <br /> concentrated floc is fed by fresh batches of organic matter entering the treatment system. Since the <br /> quantity of microorganisms is higher than the first time around, the initial F:M ratio is lower and the <br /> bacteria start at a higher level in the growth cycle. A constant time period of aeration allows the system <br /> "phase with each cycle. This results in better flocculation and <br /> to progress further into the endogenous <br /> a clearer effluent. Thus, the rate of organic removal is most rapid in the growth phase, while floc <br /> formation is best in the endogenous phase. a <br /> LEXTENDED AERATION <br /> Sludge production is generally an inherent part of the biological digestion process.In typical municipal <br /> systems, there is so much food that the bacteria multiply exponentially with much of the food going <br /> into prduction of new cells,so sludge(which is made up almost entirely ofbiomass)production is high. <br /> t Conversely, when food is scarce, as in.the low'F:M ratio Bio-Pure system, the bacteria become <br /> cannibalistic and cell production is low, so sludge production may actually cease as new cells reach <br /> equilibrium with those consumed. In the Bio-Pure process, the rate of sludge buildup is balanced by <br /> the rate of sludge destruction. Since this.balancing is not precise, over extended periods of time the <br /> effluent discharge quality may ultimately'be degraded as small quantities of sludge concentrate,thus <br /> periodic wasting of a small volume of sludge may become necessary. This is especially true where a <br /> highly polished effluent is desired. <br /> Unlike a municipal flowthrough system, where sludge is continually drawn off, the Bio-Pure system <br /> retains and recycles the sludge until the ane-liter settlometer test (SSV-60 test) indicates 500 ml of <br /> „1 sludge volume. In each batch, 66% of the mixed liquor,the portion that remains in the clarifier after <br /> transfer of the supernatant, is returned to the aeration chamber. After settling, this 66% represents <br /> 100% of the activated sludge. <br /> (NOTE:The SSV-60 test,although somewhat similar,is not to be confused with the more commonly <br /> used SVI test. The SVI is used to determine the volume of sludge compared to its weight, and thus <br /> its settleability, whereas the SSV-60 test determines-only the settled-sludge-to-supernatant ratio.) <br /> t <br /> 4 <br />