Chemical apparatus and process disinfecting – deodorizing – preser – Chemical reactor – With means applying electromagnetic wave energy or...
Reissue Patent
1997-11-14
2003-06-03
Jenkins, Daniel J. (Department: 1742)
Chemical apparatus and process disinfecting, deodorizing, preser
Chemical reactor
With means applying electromagnetic wave energy or...
C422S020000, C422S022000, C422S024000, C422S186000, C422S186040, C422S900000, C422S907000, C422S127000, C210S243000, C210S748080
Reissue Patent
active
RE038130
ABSTRACT:
BACKGROUND OF THE INVENTION
Since the 19th Century discovery of the cause of cholera epidemics in London and their prevention through treatment of sewage and other effluent to remove and/or kill organisms within the effluent, many advances have been made in the treatment of organically polluted effluent. Early in the development of water treatment systems, chlorine and other halides were found to have deleterious effects on water born organisms, and chlorine compounds are now commonly used to reduce the number of living organisms in water supplies to reasonably safe levels.
It has also been determined that photonic absorption, such as is possible with high levels of radiation at preferentially absorbed frequencies, can cause total photodynamic inactivation of several bacteriophages. (See R. Hall as cited in General Electric Lamp bulletin LD-14; and M. Luckiesh, “Germicidal Eythermal Energy Research” from D. Van Nostrand Co). When a non-fluorescing organism absorbs a photon, the energy is usually converted into vibrational energy (heat) that raises the internal temperature of the organism. Viral organisms are extremely sensitive to such energy. They are so small that the absorption of very few photons causes their internal temperature to rise to levels that are dangerous to their continued existence. In fact, this form of heat energy within viral organisms, causes viral inactivation when the temperatures there within exceed 100° C.
Photobiologists have discovered absorption curves for various biological parts. For example, proteins normally have peak absorption when exposed to radiated ultraviolet (UV) energy at wavelengths of 300 nanometers (nm) to 280 nm, and ribonucleic acid (RNA) has an absorption peak to radiant wavelengths from 265 nm to 245 nm, with an absolute peak at 253.7 nm. The peak absorption for virions occurs at about 260 nm. 184.9 nm energy is the peak energy used for the breakdown of the hydrogen bond that links the DNA chain and phosphorous bond that links the RNA chain. In addition, application of 184.9 nm UV causes free oxygen molecules in the substance under treatment to add an oxygen atom to form ozone, a proven virion deactivator.
Therefore, sterilizers have been constructed that expose a fluid stream to ultraviolet radiation in the 300 nm to 180 nm wavelength range at an applied power of the 30 Kergs per mm
2
or more required to disassociate the deoxyribonucleic acid (DNA) and RNA of viral organisms.
Although with prior art UV sterilization devices, it has been possible to provide UV energy in the correct range of wavelengths and at lethal power levels, such UV devices have had numerous disadvantageous features. First, many have poorly designed flow channels that allow organisms to flow there through without receiving a lethal dose of ultraviolet radiation. Most apply the requisite amount of UV too slowly, thereby allowing viral organisms to produce pigment like molecules that dilute the effect of UV light so that what should be a lethal level, can be withstood. Studies have shown that certain types of viral organisms can produce the UV blocking molecules in as little as ten milliseconds. This means that to apply a lethal dose of UV energy to those virions capable of protecting themselves from UV light, enormous concentrations of UV energy must be provided, since a lethal or at least a debilitating amount of UV energy must be applied and absorbed by every exposed viral organism in less than the first ten milliseconds that the viral organism is exposed. Commercially available intense UV sources used in the prior art devices tend to be narrow frequency devices that are unable to produce lethal intensity at all the peak absorption wavelengths of organisms. The broadband UV energy producing devices that are available produce UV light at relatively low power levels. Examples of these latter sources are UV fluorescent tubes, which produce UV at such low levels that literally hundreds of thousands of lamps are required to treat the effluent in a normal commercial sewage treatment plant.
Over time, when selective kills are attempted, either by chemical means, or inadequate levels or improper wavelengths of radiant energy, microorganisms adapt and become resistant to common killing schemes. Hence, in the case of chlorine, there is evidence that sewer and water supply microorganisms have evolved to tolerate high levels of chlorine. In fact, some now even are able to metabolize chlorine. Not withstanding a reduction in efficacy, chemicals like chlorine build up in an environment, if not poisoning it, changing it in undesirable ways.
Therefore, there has been a need to provide a non-chemical microorganism sterilization process and system for performing the process that allows less than one viable microorganism (including bacteria, virions, fungi, and bacterial spores) to pass therethrough, which can be manufactured relatively economically, and can operate in highly polluted, organic waste water environments as well as being scalable to portable potable water supplies at one extreme and to large city sewage treatment systems at the other extreme.
SUMMARY OF THE INVENTION
The present water treatment system, whether it be large enough for the treatment of an entire city's sewer outflow or just large enough to produce potable water for a military platoon size water supply, includes a particulate filter or settling and floating device to remove relatively large solids, greases and other compounds from the input effluent stream that could dirty and clog downstream components of the system. If potable water is to be the final result of the system, chemical filters are included downstream of the solids filters to remove hazardous inorganic materials such as heavy metals from the input stream. Even after passing through fine filters, an effluent stream is likely to have so many bacteria, bacterial spores, fungi and virions therein, that such effluent can be characterized as an organic soup.
The present invention includes a pulse type pump that moves a predetermined amount of this organic soup into a stunning chamber. In the stunning chamber, a relatively high electric potential is applied across bacterial organisms and spores to fracture cell membranes and slow the natural processes of any viral organisms present.
A typical stunning chamber for a sewer treatment plant includes a plurality of interleaved plates of opposite electrical potential that are spaced far enough apart that microorganisms or small organic or inorganic particles do not wedge there between, clogging the chamber, yet close enough to apply substantial electric potential from end to end across bacteria therebetween. If proper levels of electrical potential are applied in the stunning chamber, no celled organisms emerge therefrom with their cell walls intact. Even if the electric potential is insufficient to cause some of the bacteria to lose structural integrity, it can still be large enough to disorient both the viral organisms living therein and virions present in the fluid so that they are unable to initiate their UV protection mechanisms discussed above.
Intense UV light can be applied immediately after stunning to destroy any viral organisms within or outside the bacteria and the spores through photon absorption and thermal destruction. However, in the present water treatment system, the stunned organisms are usually passed first through a cavitation chamber where they are physically agitated for further disorientation and membrane rupture before exposure to UV radiation. A typical cavitation chamber is one having piezo-electric transducers positioned with respect to the flow to assure that all microorganisms passing therethrough are exposed to high levels of acoustic energy (usually greater than 140 dB at 500 to 1000 Hz).
Whether acoustically tortured or not, the microorganisms in the flow are then pulse flowed to one or more molecularly implanted simulated emitter (MISE) chambers usually provided in tubular form to apply high levels of radiant UV energy to the stream without warning to microor
Amphion International Limited
Jenkins Daniel J.
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