JP2009057824A - Toilet bowl - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve the problem that female hormones among endocrine disturbing chemicals are high in female hormone activity in cleaning water and waste water treatment liquid, and the removing ratio of them in water treatment facilities is low. <P>SOLUTION: The female hormones can be oxidized and decomposed, and converted into the substances having no hormone activity by using a device having a flow passage for supplying liquid containing the female hormones, a mechanism for storage, separation, extraction, adsorption and concentration, a decomposition mechanism by photocatalysts and a flow passage for discharging the treated liquid. Thus, the influence on the environment can be lowered. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an apparatus for decomposing and removing a substance having a steroid skeleton by a photocatalyst, and more particularly to an apparatus suitable for decomposing and removing female hormones.

As human hormones, natural estrogens such as 17β-estradiol, estrone and estriol, and synthetic estrogens such as ethinyl estradiol and hexestrol are known. These are not only intact structures, but also form a complex with glucuronic acid or sulfuric acid during metabolism, or form a salt with benzoic acid when formulated as a drug. In some cases. (The above is collectively called female hormones.)
These are synthesized in the body or taken from outside the body, and then exert hormonal effects in the target tissue, while being excreted outside the body by several μg to 60 μg per day through the urine [Central Pharmaceutical Affairs Council “Endocrine disrupting chemicals of pills” As a summary ", March 3, 1999]. Since the toilet bowl does not have a function of decomposing or inactivating female hormones, the excreted female hormones are discharged as they are in the washing water of human waste. Thereafter, the wash water is generally transported to a water treatment device such as an individual septic tank, human waste treatment facility, sewage treatment facility, or water treatment facility for processing. It is thought that easily degradable organic substances are decomposed by microorganisms in general water treatment equipment and water treatment facilities, but the removal rate of 17β-estradiol, which is one of female hormones, is 80% or less. Female hormones that cannot be removed nowadays are released into the environment because of the low removal rate of other chemical substances known as hormones [Saburo Matsui: Environmental Technology, vol. 27, no. 9, pp. 665-675 (1998), Ministry of Construction, Urban Bureau, Sewerage Department, Basin Sewerage Section, “Survey and Interim Report on Endocrine Disrupting Chemicals in Sewers,” June 22, 1999]. The present invention has been made to solve the above problems, and an object of the present invention is to provide an apparatus for oxidatively degrading female hormones contained in human waste into a substance having no hormone activity.

  Among the chemical substances suspected of having endocrine disrupting chemical action, estrogen (female hormone) is the most problematic both in its activity and in its low removal rate in water treatment facilities. These female hormone activities have female hormone activities that are about 1000 to 100,000 times stronger than nonylphenol and bisphenol A, which are known as environmental hormones [Saburo Matsui: Environmental Technology, vol. 27, no. 9, p665-675 (1998)]. In female sewage treatment facilities as described above, the removal rate of female hormones is not only as low as 80% or less, but also because high concentrations of female hormones are detected from the dehydrated filtrate obtained when dewatering activated sludge. It can be estimated that the female hormones are removed primarily in the state of bioadsorption, and that the actual degradation rate by microorganisms in the activated sludge is considerably low [Saburo Matsui: Environmental Technology, vol. 27, no. 9, pp. 665-675 (1998), Ministry of Construction, Urban Bureau, Sewerage Department, Basin Sewerage Section, “Survey and Interim Report on Endocrine Disrupting Chemicals in Sewers,” June 22, 1999]. An object of the present invention is to provide an apparatus for decomposing and removing female hormones with a photocatalyst in order to reduce the amount of female hormones contained in a liquid discharged into the environment.

  The first invention provides a flow path for supplying a liquid containing female hormones, a reservoir for liquid containing female hormones, a mechanism for decomposing female hormones using a photocatalyst, and discharging the treated liquid after decomposition. A female hormone removal device having a flow path.

  In the present invention, by providing a liquid reservoir containing female hormones, the photocatalyst and female hormones can be brought into contact with each other for a long time, so that the substance can be decomposed into a substance having high efficiency and no hormonal activity.

  In the present invention, the photocatalyst is a photocatalytic material typified by, for example, titanium oxide (TiO2) or zinc oxide (ZnO), and can decompose female hormones into substances having no hormonal activity by its organic substance decomposing action. , Can reduce the amount of female hormones released into the environment.

  The second invention is a flow path for supplying a liquid containing female hormones, a mechanism for separating or extracting female hormones from a liquid containing female hormones, a mechanism for decomposing female hormones by a photocatalyst, A female hormone removal apparatus having a flow path for discharging the treated liquid after decomposition.

  In the present invention, the contact efficiency between a photocatalyst having an action of degrading female hormones and female hormones is increased by separating or extracting female hormones from a liquid containing female hormones and increasing the female hormone concentration. Since it can be increased, it can be decomposed into a substance with high efficiency and no hormonal activity.

  The third invention includes a flow path for supplying a liquid containing female hormones, a mechanism for adsorbing or concentrating female hormones from a liquid containing female hormones, a mechanism for decomposing female hormones by a photocatalyst, A female hormone removal apparatus having a flow path for discharging the treated liquid after decomposition.

  In the present invention, the contact efficiency between a photocatalyst having an action of degrading female hormones and female hormones is increased by adsorbing or concentrating female hormones from a liquid containing female hormones to increase the concentration of female hormones. Since it can be increased, it can be decomposed into a substance with high efficiency and no hormonal activity.

  4th invention is the female hormone decomposition | disassembly apparatus of 2nd or 3rd invention description which further has the storage part of the liquid containing female hormone.

  In the present invention, by having a mechanism for separating or extracting female hormones from a liquid containing female hormones, or a mechanism for adsorbing or concentrating, and having a liquid reservoir containing female hormones, Since the contact efficiency between a photocatalyst having an action of degrading female hormones and female hormones can be increased and contacted for a long time, it can be decomposed into a substance having high efficiency and no hormonal activity.

  A fifth invention is the female hormone removal apparatus according to the third invention, further comprising a mechanism for separating or extracting female hormones from a liquid containing female hormones.

  In the present invention, there are provided a mechanism for separating or extracting female hormones from a liquid containing female hormones, and a mechanism for adsorbing or concentrating female hormones, whereby a photocatalyst having an action of degrading female hormones and female hormones is used. Since the contact efficiency can be further increased, it can be decomposed into a substance with high efficiency and no hormonal activity.

  A sixth invention is the female hormone decomposing apparatus according to the fifth invention, further comprising a liquid reservoir containing female hormones.

  In the present invention, a woman has a mechanism for separating or extracting female hormones from a liquid containing female hormones, a mechanism for adsorbing or concentrating the female hormones, and a liquid reservoir containing female hormones. The contact probability between female hormones and photocatalysts that have the effect of degrading hormones can be remarkably increased, and because they can be contacted for a long time, they can be decomposed into highly efficient and non-hormone active substances. .

  The seventh invention is a mechanism for decomposing female hormones with a photocatalyst, comprising a photocatalyst layer containing a photocatalyst on a contact surface with a liquid containing female hormones, and a light irradiation means for irradiating the photocatalyst layer with light. A female hormone removal apparatus according to any one of the first to sixth inventions.

  In the present invention, photocatalysts such as titanium oxide and zinc oxide can exhibit photocatalytic action even with weak light or natural light. However, in order to further promote decomposition and increase processing efficiency, It is preferable to irradiate light. As light to irradiate, for example, ultraviolet rays can be used. In particular, it is preferable to irradiate light having a wavelength of 380 nm or less, which is the excitation wavelength of the titanium oxide photocatalyst.

  An eighth invention is a toilet having the female hormone removing apparatus according to any one of the first to seventh inventions.

  In the present invention, since the female hormones contained in the excrement can be decomposed and removed by providing a female hormone removal device using a photocatalyst in the toilet, the amount of female hormones discharged to the environment can be reduced. In this case, the compactness is improved by attaching the urine and stool to the trap part forming the ball bottom and the water seal, and the urinal itself to separate and storing the stool, and more reliably and efficiently disassembled.

  A ninth invention is a urinal having the female hormone removing apparatus according to any one of the first to seventh inventions.

  In the present invention, the female hormones removal device using a photocatalyst is provided in the urinal, whereby the female hormones contained in the urine can be decomposed and removed, so that the amount of female hormones discharged into the environment can be reduced.

  A tenth invention is a female hormone removal system having the female hormone removal device according to any one of the first to seventh inventions in a drainage path of a toilet.

  In the present invention, by providing a female hormone removal device in the drainage path of the toilet, the female hormones contained in the excrement can be decomposed and removed, so the amount of female hormones discharged into the environment can be reduced. . In addition, by providing a female hormone removal device in the drainage route, female hormones contained in excreta discharged from a single or a plurality of toilets can be covered with a single removal device.

  An eleventh invention is a female hormone removal system having the female hormone removal device according to any one of the first to seventh inventions in a drainage path of a urinal.

  In the present invention, by providing a female hormone removal device in the drainage path of the urinal, the female hormones contained in the excrement can be decomposed and removed, so the amount of female hormones discharged into the environment can be reduced. . Further, by providing a female hormone removal device in the drainage route, female hormones contained in excreta discharged from a single or a plurality of urinals can be covered with a single removal device.

  A twelfth invention is a female hormone decomposition system having the female hormone decomposition apparatus according to any one of the first to seventh inventions in a drainage path of a septic tank, a human waste processing apparatus or a sewage treatment apparatus.

  In the present invention, by providing a female hormone decomposition device in the drainage path of the septic tank, human waste processing device or sewage treatment device, the septic tank, human urine processing device or sewage treatment device included in the wastewater is equipped with a general Since female hormones that could not be decomposed by the treatment method can be efficiently decomposed, the amount of female hormones discharged into the environment can be reduced.

  The specific configuration of the present invention will be described below.

  The photocatalyst refers to a substance having an organic substance decomposing ability by a photocatalytic action such as titanium oxide or zinc oxide.

  An apparatus for removing female hormones refers to an apparatus for bringing a photocatalyst on the surface of a base material or an adsorbent to bring it into contact with female hormones and decomposing and removing female hormones by photocatalytic action.

  In order to generate photocatalytic action such as titanium oxide, it is preferable to use a light source. As the light source, not only an ultraviolet lamp but also sunlight, a fluorescent lamp, an incandescent lamp, a metal halide lamp, a mercury lamp, or the like can be used.

  As a mechanism for separating or extracting female hormones from a liquid containing female hormones, a mechanism provided with a separation membrane such as a polymer membrane, or a mechanism for filtering, compressing and extracting solids not containing female hormones is used. be able to.

  As a mechanism for adsorbing female hormones from a liquid containing female hormones, activated carbon, zeolite, silica gel, or the like can be used. Further, the temperature and pressure may be manipulated to improve the adsorption force.

  The storage part of the liquid containing female hormones may incorporate a valve for controlling drainage so that the female hormones react with the photocatalyst for a sufficient time.

  As a mechanism for concentrating female hormones from a liquid containing female hormones, it can be concentrated by providing a heating means and evaporating.

  An embodiment of a female hormone removal apparatus according to the present invention will be described with reference to the drawings. FIG. 1 is a schematic configuration diagram of an embodiment of the present invention, which is used in a toilet 1. The ball bottom portion 2 and the trap portion 3 of the toilet 1 are filled with an adsorbent 4 carrying a photocatalyst. Further, an ultraviolet lamp 5 is installed on the side surface and trap of the ball bottom. When a toilet bowl is used, urine and excrement accumulate in the bottom and trap of the ball. At this time, the female hormone contained in the urine and excrement is adsorbed by the adsorbent filled in the bottom of the ball and the trap. The The adsorbed female hormones are decomposed by the photocatalyst. After contacting with a sufficient amount of time and decomposing female hormones, it is discharged from the discharge path 6 by supplying wash water to the toilet.

  FIG. 2 proposes a toilet having trap portions 7 and 8 for changing the structure of a conventional toilet and separating and storing urine and excrement in advance. Even in this case, if a disassembly device is installed in the same manner as described above, the disassembly can be performed more efficiently.

  FIG. 3 is a schematic configuration diagram of one embodiment of the present invention, which is used in the urinal 9. The trap portion 10 of the urinal is filled with an adsorbent 11 carrying a photocatalyst. Moreover, the ultraviolet lamp 12 is installed in the trap. When the urinal is used, urine is collected in the trap. At this time, the female hormones contained in the urine are adsorbed by the adsorbent filled in the trap. The adsorbed female hormones are decomposed by the photocatalyst. After contacting with a sufficient amount of time and decomposing female hormones, the flushing water is supplied to the urinal and then discharged to the discharge path 13.

  FIG. 4 is a schematic configuration diagram of an embodiment in which the female hormone removal device of the present invention is provided in the drainage path of the toilet. The removal device 14 here has a decomposition function by photocatalyst, separation / extraction function, adsorption / concentration function, and is installed in the drainage path 15 of the toilet bowl through which the exhaust flows, so that it can be removed from a plurality of toilet bowls 16. Emissions can also be decomposed.

  FIG. 5 is a schematic configuration diagram of an embodiment in which the drainage path of the urinal is equipped with the female hormone removal / solution apparatus of the present invention. The removal device 16 here has a photocatalytic decomposition function, separation / extraction function, adsorption / concentration function, and is installed in the drainage path 17 of the urinal through which the effluent flows. Emissions can also be decomposed.

  FIG. 6 is a schematic configuration diagram of an embodiment in which the female hormone oxidative decomposition apparatus of the present invention is provided in the drainage path of the septic tank. The removing device 19 here has a photocatalytic decomposition function, a storage function, a separation / extraction function, and an adsorption / concentration function. In general, easily decomposable organic substances are decomposed by microbial treatment or the like in septic tanks, human waste processing facilities and sewage treatment facilities, so by installing a decomposing device 19 in the drainage path 20 of the septic tank 21 through which treated water flows, It becomes possible to efficiently decompose female hormones in the liquid that could not be decomposed by the treatment equipment in the previous stage.

  The decomposition activity of female hormones by the titanium oxide photocatalyst was confirmed as follows, particularly for estradiol (same as 17β-estradiol).

First, 17β-estradiol is dissolved in water to a concentration of 1 × 10 ⁻⁷ M, and a predetermined amount of titanium oxide is added and stirred, and then irradiated with ultraviolet rays (wavelength: 360 nm, irradiation intensity: 6 mW / cm ² ). Then, the concentration of 17β-estradiol over time was measured by the radioimmunoassay (RIA) method.

  In the test, as shown in Table 1, when 1 ml of the test solution was only irradiated with ultraviolet rays without adding titanium oxide (Experimental Group 1), 250 μg of titanium oxide was added to 1 ml of the test solution but not irradiated with ultraviolet rays (experimental). Group 2), when 50 μg of titanium oxide is added to 1 ml of test solution and irradiated with ultraviolet rays (experiment group 3), and when 250 μg of titanium oxide is added to 1 ml of test solution and irradiated with ultraviolet rays (experiment group 4) Carried out.

  The results are shown in FIG. As can be seen from FIG. 7, the concentration of 17β-estradiol was greatly reduced only when both titanium oxide, addition and ultraviolet irradiation were performed.

It is the schematic which installed the female hormone decomposition | disassembly apparatus of this invention in the toilet bowl. It is the schematic which installed the female hormone decomposition | disassembly apparatus of this invention in the toilet bowl. It is the schematic which installed the female hormone decomposition | disassembly apparatus of this invention in the urinal. It is the schematic which installed the female hormone decomposition | disassembly apparatus of this invention in the drainage path of the toilet bowl. It is the schematic which installed the female hormone decomposition | disassembly apparatus of this invention in the drainage path of the urinal. It is the schematic which installed the female hormone decomposition | disassembly apparatus of this invention in the drainage path of a septic tank. It is a characteristic view in the experiment for confirming the decomposition | disassembly and removal effect of the female hormone by a titanium oxide photocatalyst.

Explanation of symbols

1: Toilet bowl 2: Ball bottom part 3: Trap part 4: Adsorbent supporting photocatalyst 5: Ultraviolet lamp 6: Discharge port 7: Trap for urine storage 8: Trap for waste collection 9: Urinal 10: Trap part 11 : Adsorbent 12 carrying a photocatalyst 12: Ultraviolet lamp 13: Discharge pipe 14: Removal device 15: Urinal drainage path 16: Urinal 17: Urinal drainage path 18: Urinal 19: Removal apparatus 20: Septic tank drainage Path 21: Septic tank

Claims (3)

  A toilet having a female hormone removal apparatus, wherein a trap part of the toilet is filled with an adsorbent carrying a photocatalyst, and an ultraviolet lamp is installed in the trap part of the toilet.   The toilet according to claim 1, wherein the toilet is a toilet or a urinal.   The toilet bowl according to claim 1, wherein the toilet bowl is a toilet bowl, wherein a ball bottom portion of the toilet bowl is filled with an adsorbent carrying a photocatalyst, and an ultraviolet lamp is installed at the ball bottom portion.