Plastic and nonmetallic article shaping or treating: processes – Forming articles by uniting randomly associated particles – Stratified or layered articles
Reexamination Certificate
2002-11-25
2004-08-31
Barry, Chester T. (Department: 1724)
Plastic and nonmetallic article shaping or treating: processes
Forming articles by uniting randomly associated particles
Stratified or layered articles
C210S502100
Reexamination Certificate
active
06783713
ABSTRACT:
TECHNICAL FIELD
The present invention relates to filters capable of removing various contaminants, including pathogens, from liquids by filtration. In particular, it relates to filters that comprise activated carbon fibers for removing a broad spectrum of contaminants, including viruses, from liquids. Additionally, it relates to a method of removing contaminants from liquids.
BACKGROUND OF THE INVENTION
Water may contain many different kinds of contaminants including, for example, particulates, harmful chemicals, and microbiological organisms, such as bacteria, parasites, protozoa and viruses. In a variety of circumstances, these contaminants must be removed before the water can be used. For example, in many medical applications and in the manufacture of certain electronic components, extremely pure water is required. As a more common example, any harmful contaminants must be removed from water before it is potable, i.e., fit to consume. Despite modern water purification means, the general population is at risk, and in particular infants and persons with compromised immune systems are at considerable risk.
In the U.S. and other developed countries, municipally treated water typically includes one or more of the following impurities: suspended solids, bacteria, parasites, viruses, organic matter, heavy metals, and chlorine. Breakdown and other problems with water treatment systems sometimes lead to incomplete removal of potential pathogens. For example, cryptosporidiosis, a type of waterborne microbiological contamination, was brought to national attention in April of 1993 when the water supply of the city of Milwaukee, Wis. became contaminated with cryptosporidium cysts resulting in 400,000 cases of the disease and over 100 related deaths.
In other countries there are deadly consequences associated with exposure to contaminated water, as some of them have increasing population densities, increasingly scarce water resources, and no water treatment utilities. It is common for sources of drinking water to be in close proximity to human and animal waste, such that microbiological contamination is a major health concern. As a result of waterborne microbiological contamination, an estimated six million people die each year, half of which are children under 5 years of age.
In the U.S., the National Sanitation Foundation (NSF), based on Environmental Protection Agency (EPA) studies, introduced standards that must be met for drinking water. The purpose of these standards is to establish minimum requirements regarding the performance of drinking water treatment systems that are designed to reduce specific health related contaminants in public or private water supplies. Established in 1997, Standard 53 requires that the effluent from a water supply source exhibit 99.9% removal of parasites against a challenge. Established in 1991, Standard 55 requires that the effluent from a water supply source exhibit 99.99% removal of viruses and 99.9999% removal of bacteria against a challenge. One microorganism for each class of pathogen is used to demonstrate that the filter system is adequately treating for the respective pathogens. As a representative microorganism for parasites/protozoa, cryptosporidium is used. Because of the prevalence of
E. coli
(bacterium) in water supplies, and the risks associated with its consumption, this micro-organism is typically used as the bacterium. Also, MS-2 bacteriophage is typically used as the representative microorganism for virus removal because its size and shape (i.e., 25 nm and spherical) make it a particularly difficult microorganism to be removed from liquids, relative to other viruses. Thus, a filter's ability to remove MS-2 bacteriophage demonstrates its ability to remove other viruses
Therefore there is a need for a filter capable of removing a broad spectrum of contaminants. This filter would comprise a single, small, lightweight, self-contained system rather than a complex multi-component and/or multistage system to remove the various contaminants. Such a filter would not only be more reliable than a complex system, but it would also be far more portable and economical. Thus, it could be utilized as a simple device on faucets in domestic settings where well water or water from a municipal source is used. In another application, such a device could be utilized in lesser developed regions of the world on a faucet or container for storing drinking water, where communal water sources are shared, but little is done to treat the water for contamination. A small, inexpensive, easy-to-use, water filter would be of great humanitarian and economic value. In certain applications, the filter should present a low resistance to the flow of water so that in locations where electricity necessary to drive a pump may be unavailable, the filter may simply be connected between upper and lower containers of water, or between the holding container and a drinking receptacle. In certain embodiments, the filter should also have sufficient structural integrity to withstand significant pressures if, for example, a source of pressure is available to drive the liquid through the filtering apparatus (e.g. mechanical pump, faucet pumped water, etc.).
Despite centuries of a well-recognized need and many development efforts, activated carbon in its various forms has never been shown to reliably remove pathogens from water or enjoyed wide-spread commercial use for pathogen removal per se. Many attempts have been made over the years to apply activated carbon to pathogen removal without notable success. In the United States, the patent literature reflects that improved activated carbon materials and water treatment structures have been sought for water purification since at least the 1800′s. For example, U.S. Pat. No. 29,560 teaches that an adsorptive carbon can be made by combining peat, cut out of the bog, with chalk in water to make a paste, followed by molding and firing. U.S. Pat. No. 286,370 teaches that artificial bone black blocks made from a slurry of finely powdered charred bones and magnesia can be used to good effect in water filters.
The prior art teaches away from using activated carbon alone, by teaching that a supplemental means must be used for pathogen removal, such as the use of biocides, pasteurization (heating), electricity, distillation or high-energy radiation such as UV or X-rays. Additionally, the U.S. EPA has taught against the use of activated carbon alone for pathogen removal, stating that “activated carbon [even] with silver does not eliminate all bacteria in water and cannot remove protozoa and viruses.” (See 59 Federal Register 223, Nov. 21, 1994.) As an example of the use of separate pathogen removal means, U.S. Pat. No. 4,828,698 (Jewell et al., issued May 9, 1989) teaches the use of a microporous membrane having pore sizes from 0.02 &mgr;m to 0.5 &mgr;m for microbiological control. U.S. Pat. No. 4,576,929 (Shimazaki et al., issued Mar. 18, 1986); U.S. Pat. No. 5,705,269 (Leiberman, issued Jan. 6, 1998); and U.S. Pat. No. 5,607,595 (Hiasa et al., issued Mar. 4, 1997) teach the use of silver, organic pesticides, and periodic heating to supplement activated carbon use. U.S. Pat. No. 3,770,625 (Wallis et al., issued Nov. 6, 1973) teaches that viruses can be removed from a liquid using activated carbon forms (granular, powdered or pelleted) treated with a sodium containing hydrolyzing composition, such as sodium hydroxide, after an acid wash. The '625 patent further teaches that the method did not provide stand-alone treatment stating “it is frequently desirable to have filtration downstream of the activated charcoal to remove any sluffed-off adsorbing medium.” U.S. Pat. No. 5,762,797 (Patrick et al., issued Jun. 9, 1998) discloses the use of a separate nonwoven, which is treated with an antibacterial material, to effect treatment of the bacteria. German Patent Publication No. 3,020,615 (Beauman et al., published Dec. 11, 1980) discloses the addition of silver-containing compounds to effect antibacterial activity. More recentl
Collias Dimitris Ioannis
Fishter Steve Gary
Tremblay Mario Elmen
Barry Chester T.
Chuey S. Robert
Cummings Theodore P.
The Procter & Gamble Co.
Vago James C.
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