Liquid purification or separation – Processes – Making an insoluble substance or accreting suspended...
Reexamination Certificate
2001-06-26
2003-07-22
Prince, Fred (Department: 1724)
Liquid purification or separation
Processes
Making an insoluble substance or accreting suspended...
C210S727000, C210S732000, C210S734000, C210S759000
Reexamination Certificate
active
06596176
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates generally to methods for treating water so that it is suitable for subsequent human consumption. More particularly, the invention provides an inexpensive and convenient method for lowering quantities of organic contaminants in water during treatment. The invention can be adopted by conventional water treatment facilities without the need for significant modification to existing equipment and process.
2. Prior Art
Very few water sources supply water that is clean enough for human consumption without any treatment, such as clarification, disinfection, decontamination and sanitation, etc. Practically all water from natural sources is contaminated with organic compounds and microorganisms that must be removed for a variety of reasons. Organic compounds often cause unpleasant odors and unappealing discoloration of the water. More importantly, some microorganisms and organic compounds are harmful to humans and inefficient removal can cause sickness and disease throughout an entire community. In recent years many regulatory agencies and particularly the United States Environmental Protection Agency (E. P.A.) have begun requiring water treatment plants to meet increasingly higher standards for the water they treat.
A number of methods are used to remove organic contaminants from water sources. The most popular recent treatment has been chlorination, the addition of chlorine to water, which has been used extensively throughout the United States and in many other countries. It is cheap, easy and highly effective. However, chlorination is gradually losing favor with the E.P.A. and health organizations for many reasons. One increasingly important factor is the potential adverse health impact of chlorination. It has been discovered that chlorination can lead to the formation of toxic and carcinogenic Disinfection by-Products (DBP's) such as chloroform and haloacidic acids. As a consequence of the increasing disenchantment with chlorination, the use of chlorine by water treatment plants is becoming more restrictive so a need has arisen for an alternative treatment that is safer yet still economical comparative to the use of chlorine and other halogens as disinfectants.
Ultraviolet radiation has been used successfully as an alternative to chlorine. Water is exposed to ultraviolet light which kills pathogens. Unfortunately, UV light can not penetrate water beyond a few centimeters. This means that for UV radiation to be effective, expensive and elaborate systems must be added to existing water treatment facilities. The UV irradiating equipment is also expensive to operate. Many water treatment plants find the expense of UV radiation to be prohibitive.
Another recently developed alternative to chlorination is oxidation. Strong oxidants effectively destroy organic contaminants while typically leaving harmless by-products. Many pathogens are destroyed and most organic compounds are fully oxidized when untreated water is oxidized. Ozone has been a popular oxidant in this emerging technology. However, ozone must be produced on site, often created immediately prior to injection into the contaminated water. This makes the use of ozone expensive. It also requires existing plants to install new, expensive machinery and is therefore unappealing to many water treatment facilities. Other strong oxidants may be used, but many result in undesirable DBP's. Bromate, a suspected carcinogen, is known to form when water is treated with strong oxidants.
The above methods share one quality in that they create an unduly hazardous work environment. Chlorine is toxic to humans as well as microorganisms. UV radiation causes cancer and blindness. Ozone and other strong oxidizing agents are also harmful to humans and must be handled carefully. Thus, the need for alternative treatments has continued.
Hydrogen peroxide, a milder oxidant than ozone and chloride, can also be used to oxidize untreated and contaminated water. However, hydrogen peroxide, although cheap, degrades rapidly and it has been found insufficient by itself to adequately decontaminate water. Hydrogen peroxide has been combined with ozone, UV radiation, filters and ferrous iron in attempts to boost its reactivity. These additions add significantly to the cost of the treatment process. The use of ferrous iron can result in the formation of iron oxide which must itself be removed in the treatment process. Thus, a need exists for an improved treatment process.
Recently, there have been many attempts to develop improved methods of oxidation for the treatment of drinking water. U.S. Pat. No. 6,024,882 to McNeilly et al., describes a method of using a combination of hydrogen peroxide and ozone to decontaminate water. Oxidizable contaminants in water are destroyed by exposing water to oxidizing conditions under pressure. High intensity mixing of the hydrogen peroxide, ozone and water under pressure facilitates complete oxidation of the contaminants with minimal waste of undissolved ozone. In this method, bromate formation is suppressed by maintaining a concentration of hydrogen peroxide that is greater than the concentration of ozone. This method, however, requires careful, continual monitoring of ozone and hydrogen peroxide concentrations in the treated water. In addition, this method does not avoid the increased expenses of using ozone. In order to adopt this method, existing water treatment facilities would need to install not only ozone producing equipment, but also ozone monitoring equipment.
U.S. Pat. No. 5,043,080 to Cater, et al., describes a method of using hydrogen peroxide and metal ions in conjunction with ultraviolet radiation. In addition to its disinfecting qualities, ultraviolet radiation has also been found to enhance the oxidation activity of hydrogen peroxide. However, this method avoids neither the significant cost nor danger using of ultaviolet radiation.
U.S. Pat. No. 5,716,528 to Jasim et al., describes a water treatment method consisting of the addition of hydrogen peroxide and ferrous ions at an acidic pH and subsequent filtration through activated carbon. Although this method uses neither chlorine, a strong oxidant, or ultraviolet radiation, it requires the installation and use of an activated carbon filter. Existing water treatment facilities would need to install, at significant cost, filtration systems.
U.S. Pat. No. 5,817,240 to Miller et al., describes a method of using hydrogen peroxide to treat water. Oxidation activity of hydrogen peroxide is enhanced by passing the treated water over a filter or fixed bed after the addition of hydrogen peroxide. The filter or fixed bed contains metal ions that enhance the activity of hydrogen peroxide. As with the previous patent, this method would require water treatment facilities to install either a filtration system or additional reservoirs in which fixed beds would have to be installed. The maintenance as well as the initial installation costs of either a filtration system or a fixed bed reservoir is unappealing to existing water treatment plants.
It is therefore an object of this invention to provide a method for treating water that is inexpensive and easy to perform while obtaining adequate treatment results.
Another object of this invention to provide a method for decontaminating water that can be readily adapted to conventional water treatment facilities without the need for additional equipment or significant changes to conventional treatment processes or adversely affecting conventional facility production capability.
Another object of this invention to provide a method for treating water that uses safer, less harmful chemicals, thereby promoting a safer work environment for employees of water treatment facilities.
Another object of this invention to provide a method for treating water that consists of a combination of known additives that are already approved by the regulatory agencies.
Another object of this invention to provide a method for treating water that results in reduced amount
Casey Larry Don
Delozier II Gerald Edward
Farris Kenneth Wayne
Keisling Trent C.
Keisling & Pieper PLC
Pieper David B.
Prince Fred
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