JP5449656B2 - Cement molded body and method for producing the same - Google Patents

Description

  The present invention relates to a cement molded article having an excellent water purification effect and a method for producing the same.

In order to control environmental pollution, improve the natural environment, and effectively use water resources, it is required to purify water in rivers, ponds, lakes, and aquariums. It has been pointed out that the proliferation of microorganisms and algae due to over-differentiation of water quality has been pointed out as the main cause of water pollution and odor.
As a method for purifying water, there has been proposed a method for suppressing the propagation of microorganisms and the like using useful microorganisms.
For example, useful microorganisms such as yeast are used as an admixture for concrete, and concrete containing microorganisms is used as a lining for the walls and floors of septic tanks for household sewage, industrial effluent, and livestock industry treatment water. (For example, refer to Patent Document 1 or 2).
JP-A-8-169745 Japanese Patent Application Laid-Open No. 10-113688

However, since cement, which is a raw material for concrete, is strongly alkaline, even if microbial bacteria are mixed in the cement, most of the microorganisms are killed and the intended effect cannot be obtained, and the effect is not sustained.
For this reason, in Patent Document 3, concrete is mixed with a mixture of specific microorganisms of Bacillus subtilis, Bacillus thuringiensis and Bacillus sphaericus into cement. There are also proposals that make it possible to maintain the purification action by microorganisms even in the state of plates and blocks.
International Publication No. WO02 / 48069

  When microbial bacteria are used in a cement molded body such as a concrete block using cement, the microbial bacteria that can be used are limited as described above, and the purification action is also limited. In addition, the microorganisms themselves may be killed when they reach a high temperature during the production process or product storage. Furthermore, since the environment in which each microorganism is actively active is different, the usage environment is limited. In order to cope with various environments, it is necessary to prepare products containing various microorganisms. In particular, a cement molded body having an inhibitory effect on microorganisms that generate algae has not been obtained.

On the other hand, silver is known as an antibacterial substance, and antibacterial agents containing silver ions (see, for example, Patent Documents 4 to 6) have been proposed. These antibacterial agents are used in a state where they are mixed in a resin or are supported on a carrier such as soluble glass or silica gel. In order to purify water using silver ions, it is possible to gradually release silver ions in water, and structures that carry a purifier containing silver ions have various shapes and shapes such as cement molded bodies. A size that can be arbitrarily formed and processed is preferable, and a product that is inexpensive to manufacture is preferable. Above all, it is required that organisms such as fish can live in the purified water.
JP 2000-198708 A JP-A-8-26921 JP 2005-47884 A

The problem according to the present invention is to solve the above-mentioned problems, can effectively sterilize microbial bacteria in water without depending on the use environment, has a purification action to suppress the growth of algae, and It is an object of the present invention to provide a cement molded body that enables living organisms and a method for producing the same.
It is another object of the present invention to provide a cement molded body and a method for manufacturing the same, which can provide structures of various shapes and sizes at a low cost while having the above-described purification action and the like.

In order to solve the above-mentioned problems, an invention according to claim 1 is a porous water-purified cement molded article for water purification containing a silver ion exchange resin that releases silver ions into water by being immersed in water .
The “silver ion exchange resin” used in the present invention means an ion exchange resin, particularly one obtained by substituting protons of a cation exchange resin with silver ions, and has, for example, a perfluorosulfonic acid resin or a sulfonic acid group. It is produced by immersing the ion exchange resin in an aqueous solution such as silver nitrate or silver sulfate or an acetonitrile solution for a predetermined time.

The invention according to claim 2 is characterized by mixing at least cement, aggregate, water, and a material containing silver ion exchange resin that releases silver ions into water by being immersed in water, and curing and hardening after molding. A method for producing a porous water-purified cement molded body.

The invention according to claim 1 is a porous water-purified cement molded article for water purification containing a silver ion exchange resin that releases silver ions into water by being immersed in water, so that silver ions are released into water. Compared with the purification action using microbial bacteria, it can effectively sterilize microbial bacteria in water without depending on the use environment such as water quality and temperature, and in particular, enhance the purification action to suppress the growth of algae It becomes possible. In addition, since it is a silver ion exchange resin, the release of silver ions is gradual, not only increasing the sustainability of the purification action, but also maintaining the concentration of silver ions in water to the extent that living organisms such as fish can be inhabited. Therefore, it is possible to provide a purification action extremely friendly to the natural environment.
Furthermore, since it is possible to stably hold the silver ion exchange resin in the cement molded body and on the surface, it is possible to provide various shapes and sizes of structures having the purification action at low cost. Become.

And since the structure of the cement-made molded object is porous, the area which a silver ion exchange resin and water contact can be expanded, and it becomes possible to purify more water quickly.

According to the second aspect of the present invention, there is provided a method for producing a porous water purification cement molded body according to the present invention, wherein silver is released into water by being immersed in at least cement, aggregate, water and water. Since materials containing ion-exchange resin are mixed, cured and cured after molding, it is possible to easily form structures of various shapes and sizes using inexpensive materials, thus reducing manufacturing costs. be able to.

The cement molded body and the manufacturing method thereof according to the present invention will be described in detail below.
The cement molded body of the present invention is a cement molded body containing a silver ion exchange resin. In particular, a silver ion exchange resin is mixed together with cement, which is a raw material of a molded body made of cement, and is molded and cured, and the silver ion exchange resin is held on the surface and inside of the molded body. .

  As the “silver ion exchange resin” used in the present invention, an ion exchange resin, particularly one obtained by substituting a proton or the like of a cation exchange resin with silver ions, is used. Specifically, it is produced by immersing a perfluorosulfonic acid resin or an ion exchange resin having a sulfonic acid group in an aqueous solution such as silver nitrate or silver sulfate or an acetonitrile solution for a predetermined time.

The cement molded body of the present invention uses cement, aggregate, silver ion exchange resin and water as main raw materials, and forms the molded body by adding additives as necessary.
As the cement, any conventionally used cement such as ordinary Portland cement and blast furnace cement can be used, and the cement is not particularly limited.

As the aggregate, various coarse aggregates and fine aggregates such as those obtained by pulverizing a sintered body such as sand, natural crushed stone, and ceramic can be used. In the case of purifying fresh water, the aggregate preferably does not contain salt. It is also possible to select a porous body as the aggregate to increase the surface area of the cement molded body or to reduce the weight. As such porous aggregate, natural pumice or sintered foam can be used.
The size of the aggregate varies depending on the application, but in order to produce a porous molded body using the space between the aggregates, the particle size by the JIS sieve is about 2.5 mm to 10 mm. It can be suitably used. When used in large-scale environments such as rivers and lakes, it is preferable to use aggregates exceeding 10 mm and suppress the use of relatively expensive materials such as cement and silver ion exchange resins.

  The silver ion exchange resin used for the cement molded body of the present invention can be used as long as it is a commercially available silver ion exchange resin. "Muromac XSC-1416") is sufficiently immersed in silver nitrate (manufactured by Junsei Chemical Co., Ltd.), and then the resin is washed and dried.

  Additives include a coagulation accelerator that accelerates the solidification of the molded body, a retarder that delays the solidification, a foaming agent that helps to form a porous molded body even when it contains a lot of cement and fine aggregates, Various additives such as a water reducing agent that suppresses the amount of water to be added and a colorant such as a pigment for coloring the molded body can be used depending on applications.

Next, a method for producing a cement molded body according to the present invention will be described.
Cement, aggregate, water and silver ion exchange resin, which are the raw materials of the above-mentioned cement molded body, and additives as necessary are mixed and kneaded uniformly. The kneaded material is put into a mold, molded, cured and cured.
The shape of the molded body is not particularly limited, but may be a rectangular block or plate shape, or a cylinder or a prism. Further, in order to increase the surface area, it is possible to form a ring having a hollow portion.

The blending amount of the raw materials related to the cement molded body is not particularly limited, but as an example, per 1 m ³ of the molded body, crushed stone as aggregate: 1500 kg to 1950 kg, cement amount: 250 kg to 300 kg, water: zero Range suitable for slump molding, admixture: diluting admixture is about 350 cc. Furthermore, it is preferable to add silver ion exchange resin in the range which becomes 0.005-10 weight part with respect to a total of 100 weight part of cement and an aggregate.
In addition, in order to obtain a porous molded body, it is blended in a small amount with respect to the aggregate containing the cement blending amount to form a gap between the aggregates, or a foaming agent is added as a blending material. Thus, a porous molded body can be obtained by generating bubbles.

The cement molded body of the present invention can exhibit a purification effect only by being immersed in water for purification treatment.
The molded body slowly releases the silver ions held by the silver ion exchange resin into water. The silver ions are expected to adhere to the surface of the fungus and not only destroy the surface of the fungus but also enter the inside of the fungus, resulting in destruction of the fungal cell itself.

The present invention is illustrated by the following examples.
However, the silver ion exchange resin used in the following examples, etc., is a strong acid cation exchange resin (Muromachi Technos Co., Ltd., product name “Muromac XSC-1416”) is sufficient for silver nitrate (Pure Chemical Co., Ltd.). It is produced by dipping and then washing and drying the resin.
In manufacturing the molded body, the raw materials were uniformly stirred and mixed in the following amounts to prepare a cylindrical molded body (weight 400 g) having a diameter of 9 cm and a height of 8 cm.
(1) Ordinary Portland cement: 20kg
(2) Porous aggregate: 39 kg
(3) Silver ion exchange resin: 70 g
(4) Pigment: 600 g

(Silver dissolution test)
The molded body of the example was immersed in 1 liter of tap water, and the silver concentration in the water was measured.
The measurement results are shown in Table 1.

  From the results in Table 1, the silver ions in the molded body are rapidly released into water during the first few hours, but after 24 hours, the release amount is suppressed and becomes moderate.

(Observation of test water color, etc.)
The following tests, such as the color tone of test water, were done using the obtained molded object.
The specimen (the molded body of the above example) and the control product (the molded body was prepared in the same manner as in the example except that no silver ion exchange resin was used from the above example) were put into the water inoculated with the alga body. The color tone and state of the test water were observed and compared.

Algae (scientific name: pseudokirchneriella subcapitata, source: American Type Culture Collection, strain number: ATCC22662) was used as the test organism.
The algae used for the test were transplanted from the preservation culture and cultured for 3 days to obtain an algal suspension in the exponential growth phase. Next, the number of algae cells was counted and added to dechlorinated tap water so that the cell concentration in the test water was about 1 × 10 ⁵ [cells / ml]. Then, one specimen or control product was added to 10 liters of test water.
Table 2 shows the observation results of the color tone and state of the test water. In addition, Table 3 shows the measurement results of the pH and temperature of the test water.

  From the results in Table 2, it is easily understood that the algae are effectively inhibited from breeding in the cement molded bodies of the examples.

(Acute toxicity test for fish (Himedaka))
We asked the Japan Food Analysis Center to conduct the following experiment.
In order to examine the concentration range of the half-lethal concentration for the fish of the specimen (molded body of the above example), a 96-hour acute toxicity test was conducted on medaka with reference to OECD Guidelines for the Testing of Chemicals 203 (1992).
In the test, 5 specimens were added to 50 liters of diluted water (dechlorinated tap water), and water eluted at 24 ° C. ± 1 ° C. for 24 hours was used as a test solution. Dilution water was added to this test solution, and test water having a concentration of 1.0, 10, 100 (V / V%) was adjusted to obtain a concentration group. The control group was diluted water only.
Ten medaka (total length: about 2.0 cm, body weight: about 0.07 g) were placed in each test area, and the number of deaths and abnormal appearance / behavior were observed.

As a result, even after 96 hours, death, abnormal appearance and abnormal behavior were not observed in any of the test sections.
For reference, Table 4 shows the dissolved oxygen concentration (DO) and pH at the start of the test and after 96 hours.
From these facts, it can be understood that the cement molded body of the present invention is extremely safe for living organisms.

As described above, according to the present invention, it is possible to effectively sterilize microbial bacteria in water without depending on the use environment, to have a purifying action that suppresses the growth of algae, and to inhabit the living organisms such as fish. It is possible to provide a cement molded body and a method for producing the same.
It is also possible to provide a cement molded body and a method for manufacturing the same, which can provide structures of various shapes and sizes at a low cost while having the above-described purification action and the like.

Claims (2)

A porous molded article for cement for water purification containing a silver ion exchange resin that releases silver ions into water when immersed in water . Porous water purification characterized by mixing at least cement, aggregate, water, and a material containing silver ion exchange resin that releases silver ions into water by being immersed in water, and curing and hardening after molding. For producing a molded body for cement.