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Technical Description <br />Because of this additional hydraulic loading, 7H further recommends the use of dual filters which <br />are designed to use the filtrate of one filter to backwash the other. Since the filtrate is already part <br />of the system hydraulic loading, nothing is added. In order to obtain the desired solids holding ca- <br />pability, the media must allow penetration into the depth of the bed rather than simply retaining <br />solids on the media surface. Conventional filter sands, as used in potable water filtration, provide <br />only this surface removal and retention effect. This is satisfactory for the low solids concentra- <br />tions involved in freshwater filtration. However, in wastewater filtration, solids concentrations are <br />significantly higher and tend to rapidly seal the surface. <br />During backwash of conventional filter sand media, another phenomenon occurs which contrib- <br />utes to this surface straining effect. When the bed is fluidized, the less dense, smaller grain-size <br />media tends to accumulate as the top layer in the bed. This provides for efficient particle removal <br />during filtration, but precludes any penetration beyond the surface layer. A more efficient media <br />system incorporating varied media layers is recommended. <br />The different materials are always different specific gravities and are usually made up of various <br />sizes of gravel, garnet, sand, and anthracite coal. The denser filter media are placed below the <br />coarser but less dense coal, thus allowing deeper penetration in the direction of flow and maintain- <br />ing a coarse surface layer even after backwash. <br />BOD5 concentrations that are trapped in the suspended solids of the secondary effluent can be <br />effectively removed in a well-designed tertiary filter; however, standard multimedia filtration has <br />little or no measurable effect on the removal of soluble BUD which is generally less than 10 mi- <br />crons in size. <br />The most important consideration in the sizing of tertiary filters, and one requiring considerable <br />engineering judgment, is selection of the application rate, which is expressed as gallons per minute <br />applied per square foot of filter surface area. <br />In many cases, the maximum application rate is fixed by a regulatory agency. Some factors that <br />must be considered in selection of the rate of application include: 1) efficiency of the secondary <br />treatment process; 2) flow pattern; 3) filter cycle duration and backwash water production; and 4) <br />capital cost of equipment. <br />With the Bio-Pure system, designed-in plant flow equalization allows filter flow rate selections <br />based on equalized flow rates, which removes the problems that result from periodic surge flows. <br />With the unique batch design of the Bio-Pure secondary process, daily flow patterns (as well as <br />peak flow rates) are near constant, thus a set schedule can be maintained for backwashing the fil- <br />ter media during low system flow periods. <br />COMPUTERIZED/ELECTRONIC/ELECTRICAL CONTROL SYSTEM <br />The Bio-Pure system control unit provided by 7H manages and monitors the operational functions <br />of the entire treatment system with solid-state memory and micro-processor computerized sys- <br />tems. These systems are capable of monitoring and controlling down stream effluent disposal and <br />reclaimed water systems. This system provides 7-H with capability of monitoring all remote sys- <br />tems from their Headquarters in Grass Valley, California. They can coincidentally provide the <br />client with the same information of monitored systems by modem or Internet Access to 7-H's <br />Web Page.