Liquid purification or separation – Processes – Treatment by living organism
Reexamination Certificate
1998-10-15
2001-05-01
Barry, Chester T. (Department: 1724)
Liquid purification or separation
Processes
Treatment by living organism
Reexamination Certificate
active
06224769
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to an apparatus for discharging an organic sludge, in particular to a method and an apparatus for treating, by biological digestion, organic wastes containing organic sludge discharged from a sewage treatment process, such as a sewage treatment plant, a night soil treatment plant, and the like, and from a manufacturing process, such as a food factory, a chemical factory, and the like.
BACKGROUND OF THE INVENTION
Conventionally, an aerobic biological treatment method, which is referred to as an activated sludge method, has been used to treat organic waste water. This method is carried out as shown in
FIG. 8
, wherein organic waste water, such as sewage, introduced from organic waste water reservoir
1
into biological treatment tank
3
is decomposed into an inorganic matter, such as carbon dioxide or water, under aerobic conditions in biological treatment tank
3
by biological oxidation, which is oxidative decomposition performed by a microorganism. The waste water which has been treated in the biological treatment tank
3
is solid-liquid separated into treated water C and sludge D in precipitation tank
5
. In general, a portion of sludge D is returned as a microorganism source to biological treatment tank
3
, and the residual sludge is treated as an excess sludge E.
In this case, however, precipitated and concentrated sludge containing an organic solid, which has been solid-liquid separated in the precipitation tank
5
, is treated through the steps of concentration, digestion, dehydration, composting, and incineration. Such a treatment is not preferred because it requires a large quantity of labor, time, and expense.
For this reason, methods of decreasing a sludge as much as possible, such as an extended aeration method for increasing the residence time of the sludge, and a fixed bed oxidation method utilizing a biomass attached to a catalytic material surface of a media to hold a large quantity of microorganisms in a reaction tank (see “Sewage Service Project—Design Guide and Explanation” issued by Japan Sewage Works Agency, edited by Sewage Works Division, Municipal Department of the Ministry of Construction, Vol. 2, 1994), have been proposed and commercialized. However, these methods require a large site area for increasing the residence time. In the extended aeration method, the sludge is dispersed when a load is reduced, thereby interfering with solid-liquid separation. In the fixed bed oxidation method, fouling of the sludge results when the load is increased. Therefore, these methods are not desirable. In order to solve these problems, a method has been proposed which temporarily stores an excess sludge, and decreases the sludge by an anaerobic digestion method to reduce the quantity of the sludge and to lessen the waste treatment load. In this method, the treatment time is long, for example 20 to 30 days, and the decrease of organic sludge is not sufficient, for example 30% to 50%.
Japanese Provisional Patent Publication No. 6-206088 discloses a method for performing an aerobic biological treatment on organic waste water, and then oxidizing a solid-liquid separated sludge by an ozone oxidation column, to reduce an excess sludge. However, this method requires operators well-skilled in handling the ozone oxidation column, and has the problem of treating residual ozone. In addition, the decomposition rate of the excess sludge is not sufficient in the ozone oxidation column.
Japanese Provisional Patent Publication No. 9-10791 discloses an activated sludge treatment method capable of considerably reducing the quantity of a generated excess sludge. The method comprises steps of subjecting organic waste water to an aerobic biological treatment in an aeration tank, solid-liquid separating the waste water treated in the aeration tank into treated water and a sludge in a precipitation device, returning a part of the sludge separated in the precipitation device to the aeration tank through a recycle route, solubilizing the excess sludge separated in the precipitation device at a high temperature in a solubilizing treatment device, and returning the treated sludge solubilized in the solubilizing treatment device to the aeration tank through a return route. According to the method described in the publication, however, it is necessary to increase the size of the solubilizing treatment device according to the maximum quantity of the excess sludge which flows into solubilizing treatment equipment. Furthermore, a large quantity of treated sludge solubilized in the solubilizing treatment device is returned to the aeration tank. Therefore, the substantial residence time is shortened in the aeration tank. Consequently, the quality of treated water at times is reduced.
Japanese Provisional Patent Publication No. 9-276887, as shown in
FIG. 9
, discloses an organic waste water treatment apparatus comprising an activated sludge treatment tank
21
, a solid-liquid separation device
22
for solid-liquid separating a sludge obtained after an activated sludge treatment, a sludge returning means
23
for returning a part of the separated sludge to activated sludge treatment tank
21
, a sludge concentration device
24
for concentrating the residual sludge, a heating device
25
for heating the concentrated sludge to a temperature of 40 to 100° C., and a sludge returning means
26
for returning the heated sludge to activated sludge treatment tank
21
. According to the treatment apparatus, the excess sludge separated in solid-liquid separation device
22
is concentrated in sludge concentration device
24
, and then is sent to heating device
25
. There is therefore the advantage that the quantity of the sludge sent to heating device
25
can be decreased. In the treatment apparatus, however, the sludge is solubilized in only a heating treatment. For this reason, the solubilization ratio of the sludge is low, for example 20% to 25%. It should take a long time to solubilize a large quantity of sludge by using a solubilizing tank of a large capacity. Consequently, the scale of equipment is enlarged. Thus, the treatment apparatus has a disadvantage that the cost of heating, the maintenance cost, and the like are increased.
In order to reduce the equipment cost, furthermore, it is preferable to reduce the number of required devices and the space occupied by the devices.
SUMMARY OF THE INVENTION
In consideration of the above-mentioned problems of the prior art, it is an aspect of the present invention to provide a method and apparatus for treating an organic waste water which are capable of utilizing compact equipment by reducing the quantity of sludge to be treated.
It is another aspect of the present invention to provide a method and apparatus for treating an organic waste water which are capable of improving the quality of treated water.
It is yet another aspect of the present invention to provide a method and apparatus for efficiently treating an organic waste water at a low cost.
It is a further aspect of the present invention to provide a method of treating an organic waste water which is capable of specifying and shortening the treatment time for solubilizing reaction and of efficiently performing sufficient solubilization.
In order to attain the above-mentioned aspects, the present invention employs a method comprising the steps of biologically treating organic waste water by a biological treatment device, solid-liquid separating the waste water treated by the biological treatment device into treated water and a sludge by a solid-liquid separation device, concentrating at least a portion of the sludge separated by the solid-liquid separation device by a concentration device, and directing the concentrated sludge to a solubilizing tank. Consequently, the quantity of the treated sludge directed to the solubilizing tank can be decreased. Thus, the size of the solubilizing tank can be reduced. In particular, the concentrated sludge is directed to the solubilizing tank, such that the nutritive conditions suitable for the growth of ther
Akashi Akira
Fukui Takahiro
Hasegawa Susumu
Katsura Kenji
Miura Masahiko
Barry Chester T.
Marshall O'Toole Gerstein Murray & Borun
Shinko Pantec Co. Ltd.
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