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>>When incorporated with the current AguaClara water treatment process, the granular filtration with the clear well backwash system must consistently meet the target effluent goal of 1 NTU or lower.
>>Operate without electricity.
>>Economically sustainable-construction material must be relatively cheap and readily available in Honduras; operation costs must be minimal.
>>The filtration and backwash system design must be simple in order to facilitate operation and maintenance as much as possible.
>>The filtration and backwash system must be open so that the operator can easily observe the workings of the system.
Concept of Operation
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Our Clear Well Backwash system is gravity-driven backwash system. Our entire filtration system will consist of two granular filter beds, one clear well, outlet for effluent water for distribution, outlet for dirt particles removed from water, and a system of valves to control the flow of water between the different components. Please see figure 1 below. In the AguaClara water treatment plant, the entire filtration system will be the final treatment process after the sedimentation tanks. During regular filtration operations, influent water comes from the sedimentation tank and goes through the filter which is set at a lower elevation than the sedimentation tank. The filter will incorporate a rapid sand filter, which is a bed of anthracite coal, sand, and gravel that catches the dirt particles in the water running down through it. After going through granular filtration, the effluent water is sent to the distribution system.
In order to recharge the clear well, effluent water from the filter bed is diverted to the clear well by closing the valve leading to the distribution system and opening the valve leading to the clear well. Once the water flows through the filter, it is pushed up by pressure difference into the clear well which is at a higher elevation than the filter. The water level in the filter will eventually rise until the head difference is enough to recharge the clear well. Consequently, one of the test of feasibility is to determine the elevation difference between the sedimentation tank, clear well, and the granular filter. An outrageously large difference would make this system unfeasible. When the clear well is filled to the proper elevation, the valve leading to the clear well will be closed off. We would now have a supply of backwash water that we can confirm for quality and quantity necessary to thoroughly backwash our filter beds.
When the filter becomes clogged with dirt and needs to be cleaned, the plant operator will shut off the flow entering the filter and let the remaining water drain out. Next, the clear well valve is opened and the backwash water from the clear well will backwash the filter bed. This water elevates the sand particles in the filter, loosening the dirt particles that were caught in the sand. The water carries away the dirt particles into the backwash pipe, but not the sand particles because those are heavier. The sand bed will expand 30% for optimal cleaning. Once finished, the operator will close the backwash valve and begin filtration again or recharge the clear well.
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