JPH11188377A - Water quality clarification porous concrete member for denitrification - Google Patents

Abstract

PROBLEM TO BE SOLVED: To increase denitrification action, to easily perform preparation, to easily perform exchange and to clarify org. substances (BOD) with titanium oxide. SOLUTION: A water quality clarification porous concrete member 1 for denitrification consists of a porous concrete comprising aggregate coated with a kneaded substance of calcareous raw material and siliceous raw material and tobermorite or xonotlite exists on the surface of this coated substance and titanium oxide is pref. incorporated into the above-described kneaded substance or titanium oxide exists on the coated surface. The water quality clarification porous concrete member 1 for denitrification is prepd. by coating the surface of the aggregate with the kneaded substance of the calcareous raw material and the siliceous raw material and has interstices 4 therein.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water-purifying porous concrete member for dephosphorization, and more particularly, the present invention has an excellent dephosphorization action which is installed in water or on the edge of a river or lake. The present invention relates to a water purification porous concrete member for dephosphorization.

[0002]

2. Description of the Related Art Conventionally, various types of water purification members for rivers, lakes and marshes have been known, including those using porous concrete, those using vegetation concrete, and those disclosed in Japanese Patent Application Laid-Open No. Hei 8-22947. Some use a phosphorus adsorbent block as disclosed in the gazette. When this porous concrete is used, microorganisms naturally invade the voids and surfaces of the porous concrete to form a biofilm. Water purification is performed using the purification power of the biofilm (removal of BOD). Vegetable concrete is purified of water quality by taking in nitrogen and phosphorus from water using aquatic plants.

[0003] Further, in the apparatus using a phosphorus adsorbent block disclosed in Japanese Patent Application Laid-Open No. Hei 8-22947, a porous concrete block and a phosphorus adsorbent block are arranged in water, and a biofilm attached to the porous concrete block is provided. This method purifies the water quality by utilizing the water purification function of both the water purification by the method and the phosphorus adsorbent block obtained by mixing the volcanic ash with ferrous sulfate and firing.

[0004]

However, in the water purification concrete block disclosed above, it is known that the porous concrete block itself has a water purification effect to some extent. The effect is not great. Also, the formation of a biofilm on the porous concrete increases the water purification action, but it takes time until the biofilm is formed, and it takes a considerable period of time for the appropriate water purification action to appear. is there. When vegetation concrete is used, it is not preferable because regular maintenance of plants is required because plants are used.

[0005] The inventors of the present invention have made various studies focusing on the fact that a porous concrete block is an excellent water quality purifying material if its water purifying action is large, because it is simple and economical to manufacture. Then, by actively generating tobermorite or zonotolite in the cement hydrate that constitutes the porous concrete, the phosphorus component reacts with these tobermorite or zonotolite to be fixed, and that an excellent dephosphorization effect is obtained. The present invention has been made, and it has been found that even if titanium oxide having a water quality-purifying action is combined, purification of the entire water quality can be obtained without adversely affecting the dephosphorization action.

Accordingly, a first object of the present invention is to provide a porous concrete member having an increased dephosphorization effect, which is economical, easily manufactured, and easily replaceable. An object of the present invention is to provide a water purification porous concrete member for phosphorus. A second problem to be solved by the present invention is to provide a water-purifying porous concrete member for dephosphorization in which a dephosphorizing action is increased and a porous concrete member capable of purifying organic substances (BOD) by titanium oxide is obtained. It is in.

[0007]

The above objects of the present invention are attained by the following inventions.

(1) It is made of porous concrete composed of an aggregate coated with a kneaded material of calcareous raw material and siliceous raw material, wherein tobermorite or zonotolite is present on the surface of the coated material. Water purification porous concrete material for phosphorus removal. (2) The water-purifying porous concrete member for dephosphorization according to the above item 1, wherein titanium oxide is added to the kneaded material. (3) The water-purifying porous concrete member for dephosphorization according to (1), wherein the kneaded material has titanium oxide on a coating surface thereof.

The water-purifying porous concrete member for dephosphorization of the present invention is made of porous concrete composed of an aggregate coated with a kneaded material of a calcareous raw material and a siliceous raw material, and the surface of the coated material is tobermorite or zonotolite. Which is capable of imparting an excellent dephosphorizing effect to the porous concrete member, and has an excellent effect of being easy to manufacture, economical and easy to replace. . Further, in the water-purifying concrete member for dephosphorization of the present invention, by adding titanium oxide to the kneaded material, purification of organic substances (BOD) can be obtained without adversely affecting the dephosphorization action. Furthermore, in the present invention, by having titanium oxide on the coating surface of the kneaded material, its water purification action is efficiently performed.

[0010]

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described in more detail, but the present invention is not limited thereto.

In the water-purifying porous concrete member for dephosphorization of the present invention, the surface of the aggregate is coated with a kneaded material of a calcareous material and a siliceous material, and the kneaded material is used as a dephosphorizing material after curing in an autoclave. Has the action of
It also serves as a binding material for fixing the aggregates. Here, "the kneaded material is coated" means that the kneaded material exists at least on the surface of the aggregate and these are combined by the kneaded material. Although there is no particular limitation, those having a gap between the aggregates are preferable. The calcareous raw material is not particularly limited, but mainly cement is used. The type of the calcareous raw material is not particularly limited, but a mixed cement such as Portland cement, blast furnace cement or silica cement is preferable.

Examples of the siliceous raw materials include fine powder of silica sand, silica stone, diatomaceous earth, and clay. As the aggregate, coarse aggregate and fine aggregate are used, and as the coarse aggregate, gravel, crushed stone, and the like are given. Examples of the fine aggregate include sand and crushed stone. In the present invention, coarse aggregate can be mainly used, and fine aggregate can be added as needed.

The water-purifying porous concrete member for dephosphorization of the present invention is produced by kneading a calcareous raw material, a siliceous raw material and an aggregate with water, curing the kneaded product by steam curing, and then curing it in an autoclave. You. The conditions for this autoclave curing are not particularly limited, and may be in a range usually used in this technical field.
The curing is performed at 0 ° C. to 240 ° C. for a curing time of 2 hours to 10 hours. At this time, the heating rate is 50 ° C./h to 80 ° C./h, and the maximum temperature is preferably 170 ° C. to 220 ° C.

In the water-purifying porous concrete member for dephosphorization produced in this way, tobermorite or zonotolite is formed on the surface of the coating, which reacts with the phosphorus component in the water to grow crystals on the surface of the coating. Water purification is performed. The term “coating surface” is used to mean not only the surface of the coating but also the inner surface of pores or voids inside the coating. FIG. 1 is a structural diagram of a water-purifying porous concrete member for dephosphorization according to the present invention. The surface of an aggregate 2 is coated with a coating 3 which is a dephosphorizer, and the size of the aggregate 2 is large and small. Various gaps 5 exist.

Further, when titanium oxide particles are present in or on the coating, organic substances are decomposed by a photocatalytic reaction (ultraviolet light) of the titanium oxide particles, and at the same time as dephosphorization, organic substances (BOD) are purified. The titanium oxide is not particularly limited as long as it is used as a normal photocatalyst, but so-called titanium dioxide is preferable. As the titanium dioxide used in the present invention,
Any of rutile and anatase crystal forms may be used, but anatase-type titanium dioxide having high activity is preferable. These titanium dioxides contain titanium dioxide as a main component, and may further contain a small amount of titanium oxide (hereinafter referred to as titanium dioxide). The surface contains chemically bonded water or / and hydrophilic OH ions and / or sulfate ions, and the surface area of the titanium dioxide is 100 to 300 m ² / g. The addition amount of titanium oxide is preferably 10 parts by weight to 100 parts by weight with respect to 100 parts by weight of cement.

The water-purifying porous concrete member for dephosphorization thus obtained can be used in various forms. This form can be any shape or structure. The water purification porous concrete member for dephosphorization of the present invention is granular, in the case of a lump, a sphere, an ellipsoidal sphere, a cubic, a rectangular parallelepiped, a triangular cross section, a polygonal sphere, a tetrapot shape, a pyramid shape, a truncated cone shape, Any shape such as a quadrangular pyramid shape can be used.

Further, the water-purifying porous concrete member for dephosphorization can be used as a plate, a block or a specific structure. The plate shape is a tile shape, and the block shape may be an arbitrary block shape.For example, a block for root consolidation, a graspot installed at the edge of a river or lake, a circular frame block, a floor covering And the like. Further, the size of the phosphorus removing member can be arbitrarily formed.

Further, it is preferable that the surface of the shape or structure of the water purification porous concrete member for dephosphorization has a large surface area in order to increase the contact amount of contaminated water. Preferably, it is provided. The shape or structure of the water purification porous concrete member for dephosphorization used in the present invention can be produced by a conventionally known appropriate method. In the case of manufacturing a plate-like body or a block, molding using a mold, extrusion molding, or the like is preferable.

[Action] In the present invention, the calcareous raw material and the siliceous raw material react by autoclave curing to form tobermorite or zonotolite, and the tobermorite or zonotolite reacts with the phosphorus component. Water quality is purified by the crystal growth of the component. When titanium dioxide is contained, organic matter in water is decomposed by this photocatalytic action (ultraviolet light) to purify the water.

[0020]

EXAMPLES The present invention will be described below with reference to examples of the present invention, but the present invention is not limited to these examples.

[Example 1] 100 parts by weight of ordinary cement,
Of 79 parts by weight of the fine silica powder, 1600 parts by weight of No. 6 crushed stone and 54 parts by weight of water, components other than water were first charged into a forced stirring mixer, kneaded for 30 seconds, and then charged with water.
Kneaded for 0 seconds. This kneaded material is placed in a steel mold (diameter 10c).
m, height 20cm), 3 with table vibrator
Compacted for 0 seconds. Then, it put in a steam curing tank and performed steam curing. The conditions of the steam curing were as follows: pre-loading time: 3 hours, temperature rising gradient: 20 ° C./hour, maximum temperature × retention time: 60 ° C. × 3 hours, and then natural cooling.

After steam curing, natural cooling, demolding, and placing the specimen in an autoclave curing tank, curing was performed at a maximum temperature × retention time of 180 ° C. × 8 hours at 10 atmospheres to obtain a specimen. Was. After inserting the specimen into a column made of vinyl chloride, artificial sewage (KH ₂ PO ₄ : P amount: 40) was added to the column.
mg / liter) at a flow rate of 25 ml / mi.
n, and the residual concentration of P in the sewage was checked every required time. The test results are shown below. The concentration in Table 1 is mg / liter).

[0023]

[Table 1]

As apparent from Table 1, in the case of the porous concrete member for water purification for phosphorus removal of the present invention, the comparative porous concrete is 35.3 (30 minutes) mg / liter, whereas the comparative concrete is 35.3 (30 minutes). Then 1.2 (30 minutes)
It can be seen that the dephosphorization effect is far superior in terms of mg / liter.

Example 2 100 parts by weight of ordinary cement,
Of 79 parts by weight of fine silica powder, 1600 parts by weight of No. 6 crushed stone, 50 parts by weight of titanium dioxide and 90 parts by weight of water, components other than water were first charged into a forced stirring mixer, kneaded for 30 seconds, and then mixed with water. And kneaded for 90 seconds. A test body was prepared from the obtained kneaded material in the same manner as in Example 1. Further, when the test was conducted by the test method described in Example 1, the organic substance in the water was decomposed by the photocatalytic action of titanium dioxide, and an excellent water purification effect was obtained, in addition to the excellent dephosphorizing effect. The replacement of the dephosphorizing material was also easy.

Example 3 The kneaded material described in Example 1 was formed by forming a unit of a circular arc frame block shown in a cross-sectional view in FIG. 2 on a bank of a river serving as a flow path of rainwater by molding. It was produced using. A block body formed by combining the blocks was laid. When the rainwater contained phosphorus and contacted the dephosphorization water purification concrete member installed at the waterside, it was dephosphorized and the water was purified.

[0027]

Industrial Applicability The water-purifying porous concrete member for dephosphorization of the present invention is made of porous concrete composed of an aggregate coated with a kneaded material of calcareous raw material and siliceous raw material, and the surface of the coated material is tobermorite. Alternatively, the presence of zonotolite can provide an excellent dephosphorization effect to the porous concrete member, and is excellent in that it is easy to manufacture, economical, and easy to replace. Further, in the water purification concrete member for dephosphorization of the present invention, since titanium oxide is added to the kneaded material, the purification of organic substances (BOD) is performed without adversely affecting the dephosphorization action. Furthermore, in the present invention, by having titanium oxide on the coating surface of the kneaded material, its water purification action is efficiently performed.

[Brief description of the drawings]

FIG. 1 is a sectional view showing a structure of a water purification porous concrete member for dephosphorization of the present invention.

FIG. 2 is a perspective view showing a block unit made of a porous concrete member for purifying water for dephosphorization of the present invention.

[Explanation of symbols]

 1 Porous concrete member for water purification for phosphorus removal 2 Aggregate 3 Coating 4 Void 5 Circular frame block unit

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁶ Identification code FI E02B 3/14 ZAB E02B 3/14 ZAB // (C04B 28/18 14:30) (72) Inventor Tadashi Matsumoto Omiya, Saitama 1-297 Kitabukuro-cho Mitsubishi Materials Corporation Cement Research Institute

Claims (3)

[Claims] 1. A porous concrete comprising an aggregate coated with a kneaded material of a calcareous material and a siliceous material, wherein tobermorite or zonotlite is present on the surface of the coating. Water purification porous concrete material for phosphorus. 2. The porous concrete member according to claim 1, wherein titanium oxide is added to the kneaded material. 3. The water-purifying porous concrete member for dephosphorization according to claim 1, wherein the coating surface of the kneaded material contains titanium oxide.