U.S. patent application number 11/373373 was filed with the patent office on 2006-09-14 for septic system cleaning.
Invention is credited to John W. Baldridge, Carl W. Podella.
Application Number | 20060201877 11/373373 |
Document ID | / |
Family ID | 36969703 |
Filed Date | 2006-09-14 |
United States Patent
Application |
20060201877 |
Kind Code |
A1 |
Baldridge; John W. ; et
al. |
September 14, 2006 |
Septic system cleaning
Abstract
A composition including the fermentation supernatant from a
fermentation of yeast is intended to be conveniently introduced
through the wastewater plumbing system of a private home or other
facility into a septic system servicing the home or other facility
to substantially accelerate the ability of the bacteria resident in
the septic system to substantially digest biologically available
organic compounds present in the septic system, and methods of
accomplishing the same.
Inventors: |
Baldridge; John W.; (Newport
Beach, CA) ; Podella; Carl W.; (Irvine, CA) |
Correspondence
Address: |
ORRICK, HERRINGTON & SUTCLIFFE, LLP;IP PROSECUTION DEPARTMENT
4 PARK PLAZA
SUITE 1600
IRVINE
CA
92614-2558
US
|
Family ID: |
36969703 |
Appl. No.: |
11/373373 |
Filed: |
March 10, 2006 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
|
|
60661254 |
Mar 10, 2005 |
|
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Current U.S.
Class: |
210/610 |
Current CPC
Class: |
C02F 3/286 20130101;
C02F 2307/08 20130101; C02F 2305/06 20130101; C02F 3/34
20130101 |
Class at
Publication: |
210/610 |
International
Class: |
C02F 3/00 20060101
C02F003/00 |
Claims
1. A composition for cleaning a septic system by being introduced
into the septic system through the wastewater disposal plumbing
system of a facility served by the septic system comprising a
common household cleaning product carrier liquid, and a protein
component from the fermentation of yeast intermixed with the
carrier liquid, the protein component being present in an amount
sufficient relative to the total wastewater flow through the septic
system to substantially accelerate the ability of the bacteria
resident in the septic system to digest biologically available
organic compounds present in the septic system.
2. The composition of claim 1 wherein the carrier liquid contains a
surface active agent to which the proteins of the protein component
of the fermentation supernatant bind.
3. The composition of claim 2 wherein the surface active agent is
non-ionic, anionic or amphoteric.
4. The composition of claim 1 wherein the carrier liquid is a
detergent.
5. A composition for cleaning a septic system by being introduced
into the septic system through the wastewater disposal plumbing
system of a facility served by the septic system comprising a
common household cleaning product carrier liquid, and a
fermentation supernatant from the fermentation of yeast intermixed
with the carrier liquid, the fermentation supernatant being present
in an amount sufficient relative to the total wastewater flow
through the septic system to substantially accelerate the ability
of the bacteria resident in the septic system to digest
biologically available organic compounds present in the septic
system.
6. The composition of claim 5 wherein the carrier liquid contains a
surface active agent to which the proteins of the protein component
of the fermentation supernatant bind.
7. The composition of claim 6 wherein the surface active agent is
non-ionic, anionic or amphoteric.
8. The composition of claim 5 wherein the carrier liquid is a
detergent.
9. A composition for cleaning a septic system by being introduced
into the septic system through the wastewater disposal plumbing
system of a facility served by the septic system comprising a
common household cleaning product carrier liquid, and a protein
enriched cleaning solution containing a protein component from the
fermentation of yeast intermixed with the carrier liquid, the
protein enriched cleaning solution being present in an amount
sufficient relative to the total wastewater flow through the septic
system to substantially accelerate the ability of the bacteria
resident in the septic system to digest biologically available
organic compounds present in the septic system.
10. The composition of claim 9 wherein the carrier liquid contains
a surface active agent to which the proteins of the protein
component of the fermentation supernatant bind.
11. The composition of claim 10 wherein the surface active agent is
non-ionic, anionic or amphoteric.
12. The composition of claim 9 wherein the carrier liquid is a
detergent. supernatant bind.
13. A method of cleaning a septic system servicing a facility
having a wastewater plumbing system within the facility discharging
into the septic system comprising introducing into the wastewater
plumbing system a liquid comprising a common household cleaning
product carrier and a protein component from the fermentation of
yeast, the protein component being present in an amount sufficient
relative to the total wastewater flow through the septic system to
substantially accelerate the ability of the bacteria resident in
the septic system to digest biologically available organic
compounds present in the septic system.
14. A method of cleaning a septic system servicing a facility
having a wastewater plumbing system within the facility discharging
into the septic system comprising introducing into the wastewater
plumbing system a liquid comprising a common household cleaning
product carrier and a fermentation supernatant from the
fermentation of yeast, the fermentation supernatant being present
in an amount sufficient relative to the total wastewater flow
through the septic system to substantially accelerate the ability
of the bacteria resident in the septic system to digest
biologically available organic compounds present in the septic
system.
15. A method of cleaning a septic system servicing a facility
having a wastewater plumbing system within the facility discharging
into the septic system comprising introducing into the wastewater
plumbing system a liquid comprising a common household cleaning
product carrier and a protein enriched cleaning solution containing
a protein component from the fermentation of yeast, the protein
rich cleaning solution being present in an amount sufficient
relative to the total wastewater flow through the septic system to
substantially accelerate the ability of the bacteria resident in
the septic system to digest biologically available organic
compounds present in the septic system.
16. A composition for treating wastewater in a system comprising a
common household cleaning product carrier liquid, and a protein
component from the fermentation of yeast intermixed with the
carrier liquid, the protein component being present in an amount
sufficient relative to the total wastewater in the system to
substantially accelerate the ability of the bacteria resident in
the system to digest biologically available organic compounds
present in the system.
Description
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] The present application claims the benefit of U.S.
Provisional Patent Application Ser. No. 60/661,254, entitled
"Septic System Cleaning," filed Mar. 10, 2005, which application is
hereby incorporated by reference.
FIELD OF THE INVENTION
[0002] The present invention relates to a composition including the
fermentation supernatant from the fermentation of yeast intended to
be conveniently introduced through the wastewater plumbing system
of a private home or other facility into a septic system servicing
the home or other facility to substantially accelerate the ability
of the bacteria resident in the septic system to substantially
digest biologically available organic compounds present in the
septic system, and methods of accomplishing the same.
BACKGROUND OF THE INVENTION
[0003] A significant number of homes in the United States are not
connected to a central sewage disposal and treatment system and
rely on local septic systems to treat wastewater discharged from
the home. Such septic systems typically have a septic tank for
receiving the wastewater from the home. The wastewater and the
solids entrained in it are deposited in the tank where they are
decomposed by the action of bacteria and other micro-organisms. The
wastewater itself is eventually discharged into a septic field that
surrounds the tank and percolates down through the soil. Grease and
similar substances in the wastewater causes the soil of the septic
field eventually to coagulate forming in effect a seal, and the
wastewater is no longer able to drain away sufficiently quickly for
the system to operate properly; an overflow or other dire
consequence results. The speed with which such a system failure
occurs is dependent on the characteristics and condition of the
soil, the amount of wastewater discharged, and the materials found
in the wastewater.
[0004] It is known in the prior art that fermentation supernatants
obtained from the fermentation of certain yeasts, when present in
the appropriate concentrations, have the ability to accelerate the
natural digestion of biologically available organic compounds
present in sewage, sludge, grease, and the like. Examples of such
materials are described in U.S. Pat. Nos. 3,635,797, 5,464,766,
5,820,758, 5,879,928, 5,885,950, 5,905,037, and 6,699,391.
Typically, the fermentation supernatant with its protein component
is combined with other ingredients such as surfactants, buffers,
citric and lactic acids, urea, preservatives and the like and then
diluted with water to form a protein rich cleaning solution. An
example of such a protein rich cleaning solution is Accel.TM.
cleaning solution, a product containing fermentation supernatant,
surfactants, buffers, etc., and available from Advanced
BioCatalytics Corporation, of Irvine, Calif., the assignee of the
present application. In the Accel.TM. cleaning solution, the
protein component itself represents about 1.5% by weight of the
solution and water represents about 83% by weight. The surfactants,
buffers, etc., make up the remainder.
[0005] The fermentation supernatant includes a protein component
comprised of a variety of proteins produced by an aerobic yeast
fermentation process. The aerobic yeast fermentation process is
conducted within a reactor having aeration and agitation
mechanisms, such as aeration tubes and/or mechanical agitators. The
starting materials (liquid growth medium, yeast, sugars, additives)
are added to the fermentation reactor and the fermentation is
conducted as a batch process. After fermentation, the fermentation
product may be subjected to additional procedures intended to
increase the yield of proteins produced from the process. Examples
of these additional procedures include heat shock of the
fermentation product, physical and/or chemical disruption of the
yeast cells to release additional polypeptides, lysing of the yeast
cells, or other procedures described herein and/or known to those
of skill in the art. The yeast cells are removed by centrifugation
or filtration to produce a supernatant containing the protein
component. Various processes for obtaining the supernatant are
disclosed in co-pending application Ser. No. 10/837,312, filed on
Apr. 29, 2004 (Orrick File No. 700145.4005), entitled "Improving
Surface-Active Properties of Surfactants", and assigned to the
assignee of this application. That co-pending application is hereby
incorporated by reference herein.
[0006] Additional details concerning the fermentation processes and
other aspects of the protein component are described in U.S. patent
application Ser. No. 10/799,529, filed Mar. 11, 2004, entitled
"Altering Metabolism in Biological Processes," which is assigned to
the assignee of the present application. Still further details
concerning these processes and materials are described in the
aforementioned U.S. Pat. No. 6,999,391 which is also assigned to
the assignee of the present application. This patent application
and this patent are hereby incorporated by reference herein.
[0007] Among the uses proposed for such protein rich cleaning
solutions is the cleaning of septic systems, tanks, and drainage
fields. Typically, the protein rich cleaning solution is introduced
directly into the targeted material. For example, such a cleaning
solution has been continuously introduced into a septic field
serving a mobile home community by introducing the solution into a
central pumping installation that discharges wastewater into the
septic field. In this application, a concentration of about fifteen
parts per million of the solution relative to the total water flow
through the system was used. U.S. Pat. No. 5,885,950 proposes
introducing the cleaning solution directly into the septic tank,
and covering the drain field with a further diluted version of the
solution and then watering to wash the composition into the drain
field. It has also been proposed to treat an individual home's
septic system by the application through the plumbing system of a
measured dose of the cleaning solution on a weekly basis. In both
the latter instances, the treatment has to be periodically
repeated, and thus each of these approaches has the disadvantage of
requiring the homeowner to do periodic maintenance and add another
chore to his schedule, one that can be easily overlooked.
SUMMARY OF THE INVENTION
[0008] The clogging up of septic systems and associated drain
fields is a problem faced by many homeowners who are not connected
to sewer systems. Particularly in the case where the soil of the
drain field is not very porous, the septic system tank must
periodically be pumped out or a new tank positioned in a different
area of the field. While the use of a protein enriched cleaning
solution could be used by the homeowner to flush out and maintain
the system, the periodic and careful application of the correct
amount of the cleaning solution imposes a maintenance duty that
many homeowners are not ready to shoulder. In addition, of course,
the homeowner would have to buy and store the cleaning
solution.
[0009] According to the present invention, cleaning of a septic
system and its associated drain field can be accomplished with no
conscious effort by providing the homeowner with a fermentation
supernatant entrained in a liquid carrier such as common household
cleaning products used by the homeowner that in ordinary use will
be passed through the plumbing system of the home into the septic
system. For example, the protein component of the fermentation
supernatant, the fermentation supernatant itself, or a protein
enriched cleaning solution incorporating it, can be introduced into
common household cleaning products which for purposes of this
invention is defined to mean liquid products such as dishwasher
detergent, washing machine detergent, liquid hand or bath soap,
shampoo, toilet bowl cleaner and the like. The term "liquid" as
used herein includes gels.
[0010] It is therefore an object of the present invention to
provide a composition for cleaning a septic system by being
introduced into the septic system through the wastewater disposal
plumbing system of a house served by the septic system comprising a
common household cleaning product carrier liquid, and a protein
component from the fermentation of yeast intermixed with the
carrier liquid, the protein component being present in an amount
sufficient relative to the total wastewater flow through the septic
system to substantially accelerate the ability of the bacteria
resident in the septic system to digest biologically available
organic compounds present in the septic system.
[0011] It is another object of the present invention to provide a
method of cleaning a septic system servicing a house having a
wastewater plumbing system within the house discharging into the
septic system comprising introducing into the wastewater plumbing
system a liquid comprising a common household cleaning product
carrier and a protein component from the fermentation of yeast, the
protein component being present in an amount sufficient relative to
the total wastewater flow through the septic system to
substantially accelerate the ability of the bacteria resident in
the septic system to digest biologically available organic
compounds present in the septic system.
[0012] Other objects and advantages of the invention will be
apparent from the following description and claims.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
[0013] The present invention recognizes that the average American
household uses a number of products that literally end up down the
drain, and takes advantage of that fact to use these products to
introduce into the drain, and hence into a septic system, a protein
enriched cleaning solution. According to the present invention,
this can be accomplished by adding a fermentation supernatant to a
liquid carrier comprising a common household cleaning product in an
amount sufficient relative to the total wastewater flow through the
septic system to substantially accelerate the natural digestion of
biologically available organic compounds present in the septic
system by the bacteria resident in the septic system. Because the
concentration of the supernatant necessary to adequately perform
the cleaning function is dependent on the content of the
wastewater, the amount of wastewater produced, and the nature and
condition of the soil into which the wastewater will be discharged,
it will be recognized by those skilled in the art that it is not
possible to state with precision the amount of fermentation
supernatant that must be used in connection with any particular
septic system. Based on field tests on various wastewater systems
using Accel.TM. cleaning solution, it is estimated that a
concentration of about 1 to 15 parts per million of Accel.TM.
cleaning solution in the wastewater would be appropriate for most,
if not all, septic systems.
[0014] Although estimates of the amount of water used, and
wastewater produced, per capita in a home vary from place to place
and time to time, one figure to consider as a basis for determining
the amount of fermentation supernatant that must be introduced into
the plumbing system to adequately clean the septic system is about
186 liters (about 49 gallons) of water per day per person. See,
e.g., the estimate of the American Water Works Association for 1997
reported in Pipeline, Winter 2002, Vol. 13, No. 1, at page 5.
According to this report, use of the clothes washer contributes
42.4 liters to the total; the shower/bath contributes 39.4 liters;
the toilet, 37.9 liters; faucets, 56.4 liters; and the dishwasher,
4.2 liters. For a family of four, the wastewater produced on a
daily basis would be about 200 gallons, or 1400 gallons per week.
Assuming a mid-range value of 10 ppm. of Accel.TM. cleaning
solution would be required, it would be desirable to introduce
about 1/8 of an ounce of Accel.TM. cleaning solution into the
home's wastewater on a daily basis.
[0015] This can be accomplished by adding the Accel.TM. cleaning
solution into one or more of the commonly used household products
mentioned above. Take, for example, a liquid clothes washer
detergent. Liquid TIDE.RTM. detergent recommends using about 3
ounces of detergent per normal wash. If 12.5 ounces of Accel.TM.
cleaning solution was added to a 300 ounce container of liquid
TIDE.RTM. detergent, or if 12.5 ounces of the detergent was
replaced with the Accel.TM. solution, a daily clothes washing would
add a sufficient amount of a protein rich cleaning solution to
treat the septic system. Since the Accel.TM. cleaning solution has
a water content of about 80%, and a typical liquid detergent also
contains a large percentage of water, the Accel.TM. solution could
also be substituted for water during the formulation of the
detergent. It is preferred that the substitution or addition of
Accel.TM. cleaning solution be made to a detergent or other common
household cleaning product in which the surface active agents in
the product are non-ionic, anionic, or amphoteric.
[0016] Another estimate of residential water usage has been made by
the City of Portland, Oreg. It reported that the per capita
residential use of water ranged from 10 gallons per day to 600
gallons per day with an average of 140 gallons per day. Of these
140 gallons, it was estimated that 30 gallons were used for
showers, 5 gallons for flushing the toilet, 40 gallons for washing
clothes and 40 gallons for washing dishes. This wide range of water
usage demonstrates another advantage of the cleaning solution
compounds and methods of the present invention. This greater flow
of water through the system would require an additional amount of
fermentation supernatant to be introduced into the septic system.
But the increased use of water is accompanied by an increased use
of the common household cleaning products serving as carriers for
the fermentation supernatant, and thus increased, or decreased,
water consumption, whether caused by greater use per capita, or the
presence of more people in a home, is compensated for automatically
by the introduction of more or less of the fermentation
supernatant. In other words, the use of the cleaning solution
compounds and methods of the present invention is effectively
self-metering.
[0017] The example above postulates the direct introduction or
substitution of a protein rich cleaning solution into the common
household cleaning product. Alternatively, a fermentation
supernatant of the type described above, before the addition of
surfactants, buffers, etc., could be incorporated into the
formulation of the detergent, either in addition to, or in place
of, the enzymes commonly used in detergents. In an article entitled
"Formulating Liquid Detergents For Multiple Enzyme Stability", in
the January 2004 issue of HAPPI, a proposed premium liquid laundry
detergent formulation is given on page 98. That formulation
includes 53.36% by weight of water and 1.6% by weight of the
enzymes protease and amylase. The formulation also includes
surfactants, buffers and other agents. By simply replacing the
water and enzymes of this formula with the fermentation supernatant
such as that present in Accel.TM. cleaning solution a detergent
with the advantages of the present invention would be obtained at
no significant additional cost. As disclosed in the aforementioned
application Ser. No. 10/837,312, filed on Apr. 29, 2004, the
additional advantage of improved surface active properties of the
surfactants would be obtained by this replacement.
[0018] Similar additions or substitutions could be made to other
common household cleaning products such as dishwasher detergent,
toilet cleaners, liquid soaps, shampoos, and the like to insure
that the cumulative amount of the protein component of the
fermentation supernatant was passed into the septic system.
[0019] Although the above is complete description of the preferred
embodiments of the invention, various alternatives, additions,
modifications and improvements may be made without departing from
the scope thereof, which is defined by the claims.
* * * * *