Liquid purification or separation – Processes – Ion exchange or selective sorption
Reexamination Certificate
2000-03-16
2001-03-13
Simmons, David A. (Department: 1724)
Liquid purification or separation
Processes
Ion exchange or selective sorption
C210S747300, C210S908000, C210S164000, C210S170050, C210S483000, C404S004000
Reexamination Certificate
active
06200484
ABSTRACT:
FIELD OF THE INVENTION
This invention relates to a filtration apparatus for surface water, and more specifically, to a three stage filtration apparatus for removing sediment and other contaminants from surface water.
BACKGROUND OF THE INVENTION
Surface water run-off is coming under increased scrutiny as a source of pollutants entering ground water, streams and rivers. As water from rain or snow melt and other sources flows over the surface of the ground it picks up a wide variety of pollutants, ranging from large and small debris, suspended solids and sediment to oils and other soluble and insoluble chemical contaminants. Because surface water is relatively easily contained through storm sewers and dry wells, many agencies at all levels of the government are paying increased attention to both the contaminants that enter the water system through surface water run-off, and to methods to control and eliminate such contaminants. Moreover, governmental regulations currently in place put restrictions on the amount of sediment that can be permitted to flow into sewer systems.
A municipal storm sewer system is one type of traditional surface water filtering system. In this type of system a series of grated catch basins or collection boxes are interconnected with sewer pipe. Surface water flows through the grate, which catches large objects such as branches, rocks and the like. The water that flows through the grate enters the catch basin, which is a collection box or vault that functions essentially a settling basin. Such collection boxes are sometimes called sump tanks. Some sediment that flows through the grate settles to the bottom of the basin, and the water flows through an outlet pipe and into the sewer system and, depending upon the system, either to another processing facility or directly into a stream or river.
This traditional system is useful as a primary control system, and is relatively inexpensive, but it has many problems. As examples of the problems, the catch basin can quickly be filled with sediment if the water contains a high level of solids or sediment, causing the catch basin to become filled and the system to overflow or become clogged. Because the catch basin is typically a cylindrical tube or a rectangular box that sits below grade level, cleaning the sediment out of the basin can be a difficult job. Cleaning is made much more difficult if the system is clogged and the basin is underwater. Just as important, the system does not stop all of the sediment and other pollutants in the run-off. Typically, the water flow through the basin is fairly turbulent, especially when there is a lot of water flowing through the system, for instance during a storm. When this occurs very little sediment settles out, and is instead washed through the basin and into the sewer system. This may result in non-compliance with governmental regulations, possibly resulting in fines. Finally, a typical catch basin system does nothing to collect oils and other chemical contaminants and dissolved solids.
The grated catch basin type of system is routinely used with both private and municipal dry wells. In a dry well the surface water that flows through the sump tanks flows into a dry well associated with one or more basins rather than flowing into a municipal or other sewer system. However, to function properly, dry wells must have sufficient flow-through characteristics. Water containing a high level of sediment can quickly clog a dry well by stopping water flow-through. And as noted above, a grated catch basin does not stop oils and other chemicals. These kinds of pollutants, and especially oils that flow through the system can cause clog dry wells very quickly. Commercial dry wells can be very large, especially if they are used to contain run-off from a large area such as a large private parking lot, and are connected to numerous catch basins. It is typically very expensive to dig a new dry well, or to unclog an existing well.
As noted, many government agencies are paying increased attention to contaminants that are carried into streams and rivers in surface water run-off. Because polluted surface water run-off can be a significant source of pollution, agencies have begun to monitor the levels of contaminants in run-off, both in municipal and private systems. In the past several years, many municipalities have begun to impose fees on catch basin users, whether the catch basin is connected to a storm sewer system or a dry well. While these fees apply in most instances to commercial users, they can also apply to residential systems. In large part the fees are based in some manner on the kind and amount of pollutants that flow through the catch basin and into the system. In general, the higher the level of contaminants flowing through the system, the higher the fee. In some cases the amount of the fee is based on the kind of contaminant. For example, oils flowing into a sewer or dry well can lead to increased fees. These fees even apply to private commercial dry well users, since it is in the interest of a municipality to control the amount of pollution that enters the ground water.
There is therefore a strong incentive to decreasing both the amount and kind of contaminants flowing through a catch basin and into either a municipal sewer system or a private dry well or sewer system. First, there is an obvious environmental incentive: by decreasing contamination of all kinds from surface water run-off, the water that flows back into the ground and into streams and rivers is cleaner. This helps to improve environmental conditions in numerous ways. Second, there is a strong economic incentive: when sewer system and dry well users are paying fees based on the amount and kind of contaminants that flow into their systems, it is of obvious advantage to minimize all contaminants. Further, the costs associated with either cleaning catch basins or reconditioning dry wells are substantial. Avoiding or delaying those costs by reducing the amount of contaminants flowing through the system can save substantial amounts of money.
Given the need to effectively filter debris and contaminants from surface water run-off, various catch basin and other filter systems have been devise. As one example, U.S. Pat. No. 5,284,580 describes a collecting frame for use with a drainage sewer. The system utilizes a basin that fits into the sewer drain and is removable therefrom. The basin has a filtering net for trapping debris that flows into the basin through a sewer cover. An imperforate collecting basin catches particulate matter while tiny particles flow through the system with the run-off water. While this device filters out some particulate matter, it does not stop small particles or oils from entering the sewer system.
Another example of a surface water filter system is disclosed in U.S. Pat. No. 5,405,539. The system disclosed in the '539 patent is inserted into an existing storm drain collection box. A frame supports a sheet of filter medium, such as a woven synthetic material that removes particles as small as 42 microns in diameter. Pneumatic rams hold the filter material and frame in place in the collection box. Silt and other particulate debris collects on the filter compartment until the woven filter is clogged and/or the filter compartment is full, at which time excess drainage water overflows, unfiltered, over the back of the filter drain and into the sewer system. The woven filter is replace by removing the spent sheet from the collection box and replacing it with fresh material.
Yet another filter system is disclosed in U.S. Pat. No. 5,372,714. This system is adapted for use with buried, below grade catch basins, and utilizes a filter bag made of a woven plastic fabric that is porous, but which captures solids. The filter bag hangs into the catch basin, supported by the overlying grate. When full, the bag is removed by inserting lifting rods into loops of fabric connected to the bag.
None of the systems described in these patents provides for a simple, easily maintained filter system that screens out
Ipsolon LLP
Prince Fred
Simmons David A.
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