JP2011088824A - Gypsum composition controllable of generation of hydrogen sulfide, gypsum-based building material, and gypsum-based solidifying material - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a gypsum composition which is inexpensive and can be used in an application for a solidifying material used in the soil modification or a building material or the like consumed in a large quantity and has a specification to hardly produce hydrogen sulfide compared with the conventional one and high practical value when being wasted or used for the soil modification or the like, and further to provide a gypsum-based building material having the excellent characteristics in a state of keeping the conventional quality and construction work efficiency. <P>SOLUTION: The gypsum composition controllable of generation of hydrogen sulfide is obtained by adding (B) 0.8-20 pts.mass at least one kind of an aluminum compound selected from a group composed of aluminum oxide, aluminum chloride, aluminum hydroxide, aluminum sulfate and derivative thereof to (A) 100 pts.mass calcined gypsum. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a gypsum composition, a gypsum-based building material, and a gypsum-based solidifying material capable of suppressing hydrogen sulfide generation, and more specifically, suppressing hydrogen sulfide generation that is configured so that hydrogen sulfide is hardly generated by the sulfur component of gypsum. The present invention relates to a gypsum composition, a gypsum-based building material and a gypsum-based solidifying material using the gypsum composition.

  In recent years, it has been a problem that gypsum is used as a sulfur source to generate hydrogen sulfide at illegal dumping sites. The mechanism of its generation has also become clear, and it has been found that hydrogen sulfide is generated when all of the following conditions are met. That is, in this case, the main cause of the generation of hydrogen sulfide is due to the activity of sulfate-reducing bacteria that live in the soil. In order for sulfate-reducing bacteria to generate hydrogen sulfide, at least sulfate ions are present in a high concentration, anoxic (anaerobic), organic substances that are nutrient sources are present in a high concentration, It is necessary to satisfy all the conditions that water is accumulated and that the temperature (30 to 38 ° C.) and pH (3 to 9) are suitable for the activity of sulfate-reducing bacteria.

  The generation of hydrogen sulfide caused by sulfur components in gypsum is mostly due to improper treatment, such as illegal dumping of gypsum product waste as described above. It is considered difficult to eradicate. Therefore, it is desirable to be able to suppress the generation of hydrogen sulfide even if illegal dumping of gypsum product waste, etc., but for that purpose, the gypsum product itself has specifications that make it difficult to generate hydrogen sulfide. Is required.

  On the other hand, a gypsum-based solidifying material is used as one method for neutralizing sludge and mud. Furthermore, in order to promote the recycling of building materials, as a raw material for gypsum-based solidified materials, recycled gypsum that is separated and recovered from waste gypsum board, which is building waste, or recycled gypsum derived from old plaster molds (Furugata) Etc. (hereinafter abbreviated as “waste gypsum”) is also being considered. However, waste gypsum is also expected to contain some organic substances. In this case, in addition to the problem that the sulfur component in gypsum becomes a source of sulfur for hydrogen sulfide, a slight reduction of sulfate It must also be taken into account that the possibility of hydrogen sulfide generation increases due to an increase in the nutrient source of the fungus. One of the applicants has proposed to suppress the generation of hydrogen sulfide due to sulfur components in gypsum by adding an anthraquinone compound in a soil treatment agent mainly composed of gypsum ( Patent Document 1).

JP 2002-177992 A

  However, since anthraquinone compounds are expensive and cause an increase in the price of products, there are economical problems in applications where a large amount of gypsum composition is used, such as a solidifying material used for soil reforming. There was a practical problem that the use could not be expanded. In addition, in order to obtain a gypsum composition that can be used as a raw material for gypsum-based building materials, in the case of gypsum board products, gypsum plaster, joint products for gypsum board, etc. There is a restriction that it is necessary to select raw materials from that viewpoint.

  Therefore, the object of the present invention is inexpensive, can be used in applications that are consumed in large quantities, such as solidified materials used in soil reforming, and is used for disposal or soil reforming. It is an object to provide a gypsum composition having a high practical value (that is, a gypsum composition capable of suppressing the generation of hydrogen sulfide), which has a specification in which hydrogen sulfide generation is less likely to occur than conventional ones. Furthermore, another object of the present invention is to provide a gypsum-based building material in which the above-described excellent characteristics are further imparted to a conventional product.

  The above object is achieved by the present invention described below. That is, the present invention relates to (A) 100 parts by mass of calcined gypsum, and (B) at least one aluminum compound selected from the group consisting of aluminum oxide, aluminum chloride, aluminum hydroxide, aluminum sulfate, and derivatives thereof. It is a gypsum composition capable of suppressing hydrogen sulfide generation, characterized by being added in the range of 0.8 to 20 parts by mass.

  Moreover, as a preferable form of this invention, the said gypsum composition formed by further adding and mixing the (C) neutralizing agent containing a calcium or magnesium component is mentioned.

In a preferred embodiment of the present invention, the aluminum compound (B) is aluminum sulfate hydrate [Al ₂ (SO ₄ ) ₃ · nH ₂ O], and (C) the neutralizing agent is hydroxylated. The above-mentioned gypsum, which is calcium [Ca (OH) ₂ ] and in which the neutralizing agent (C) is added and mixed in a mass range of 0.1 to 0.75 times that of the aluminum compound (B). A composition.

  Moreover, as a preferable form of the present invention, any one of the above gypsum compositions in which a part or all of the calcined gypsum is obtained by baking waste gypsum is mentioned.

  Furthermore, as another embodiment of the present invention, a gypsum-based building material characterized by using any one of the gypsum compositions described above as a raw material, or a construction residual soil characterized by comprising any gypsum composition described above. And gypsum-based solidifying materials for soil treatment of sludge and mud.

  According to the present invention, it can be used as an inexpensive solidifying material when solidifying construction soil or sludge used for land reclamation and the like, and compared with the conventional one, generation of hydrogen sulfide after construction is possible. A gypsum composition that can be effectively suppressed is provided. Further, according to a preferred embodiment of the present invention, the processed product after the solidification treatment has sufficient strength, is easy to handle during transportation and landfill, and is surely neutral with consideration for the environment. A gypsum composition is provided. In addition, according to a preferred embodiment of the present invention, since the waste gypsum baked as the raw material can be used, it can contribute to the problem of recycling waste gypsum board that is a building waste material, together with the above-mentioned excellent performance, Further environment-friendly gypsum composition can be provided. Furthermore, according to the present invention, the hydrogen sulfide generation is effectively suppressed even if it is illegally dumped and left under specific conditions, while having quality and construction workability comparable to conventional products. A gypsum-based building material is provided.

  Hereinafter, the present invention will be described in more detail with reference to preferred embodiments. The present inventors have solved the above-mentioned problems of the prior art and can suppress the generation of hydrogen sulfide even when gypsum-based building materials are dumped illegally or used in large quantities as solidifying materials, etc. In the interest of providing an inexpensive gypsum composition that can be used in large quantities without affecting the quality and workability of the product when used as a building material. As a result, it was found that when aluminum ions coexist in gypsum, the activity of sulfate-reducing bacteria was suppressed, and as a result, the generation of hydrogen sulfide could be effectively suppressed and the present invention was achieved. More specifically, at least one aluminum compound selected from the group consisting of aluminum oxide, aluminum chloride, aluminum hydroxide, aluminum sulfate and derivatives thereof is 0.8 to 20 with respect to 100 parts by mass of calcined gypsum. The gypsum composition added in the range of parts by mass has a specification that can suppress the generation of hydrogen sulfide.

The present inventors added various compounds under severe conditions such as calcined gypsum, organic acid (lactic acid or acetic acid), and Desulfovibrio desulfuricans NBRC 13699 ^T as sulfate-reducing bacteria and culturing under anaerobic conditions. And a confirmation test was conducted on the effect of suppressing the generation of hydrogen sulfide. As a result, it was elucidated that the addition of an aluminum compound to the culture conditions described above has a significant inhibitory effect on the generation of hydrogen sulfide, leading to the present invention. As described above, it is conventionally known that a gypsum composition formed by adding an anthraquinone compound has an effect of suppressing the generation of hydrogen sulfide. However, anthraquinone compounds are very expensive and have to satisfy economics for practical use, but aluminum compounds are relatively inexpensive and solve the problem of economics.

As a result of further detailed examination based on the above-described findings, the inventors of the present invention, among aluminum compounds, when aluminum sulfate hydrate [Al ₂ (SO ₄ ) ₃ .nH ₂ O] is used, It has been found that a more remarkable effect can be obtained. Furthermore, it has been found that it is preferable to add and mix a neutralizing agent containing calcium or magnesium component, and it is particularly preferable to add calcium hydroxide [Ca (OH) ₂ ] as a neutralizing agent. With such a form, hydrogen sulfide generation from the gypsum composition can be effectively suppressed, and at the same time, for example, even when used in a large amount as a solidifying material, the treated product becomes neutral and has an impact on the environment. Less is.

  According to the study by the present inventors, the gypsum composition of the present invention is a mixture of calcined gypsum and an aluminum compound having a function of suppressing the activity of sulfate-reducing bacteria in a uniform state. For this reason, for example, when the gypsum composition of the present invention is used as a solidifying material, the effect is stably obtained, and the generation of hydrogen sulfide from the soil after the solidification treatment is more efficiently suppressed.

Hereinafter, each material which comprises the gypsum composition of this invention is demonstrated.
(Calcined gypsum)
The calcined gypsum is calcium sulfate hemihydrate [CaSO ₄ · 1 / 2H ₂ O] and has a solidifying performance. That is, hemihydrate gypsum chemically reacts with the water in the mud and easily changes to dihydrate gypsum, so that the mud treated with this solidifies and has strength. Examples of calcined gypsum include β-type hemihydrate gypsum, α-type hemihydrate gypsum, type III anhydrous gypsum, and mixtures thereof, and any of them can be used. The raw gypsum for calcined gypsum may be a natural product, by-product gypsum, or waste gypsum, but it is more preferable to use waste gypsum in consideration of economy.

(Aluminum compound)
The aluminum compound constituting the gypsum composition of the present invention is a component that can suppress the activity of sulfate-reducing bacteria and thereby suppress the generation of hydrogen sulfide. The aluminum compound used in the present invention is selected from the group consisting of aluminum oxide, aluminum chloride, aluminum hydroxide, aluminum sulfate and derivatives thereof. According to the study by the present inventors, among these, aluminum sulfate hydrate [Al ₂ (SO ₄ ) ₃ .nH ₂ O (n = 6, 10, 16, 18, 27)] is particularly reactive. The aluminum ions can suppress the activity of sulfate-reducing bacteria more efficiently. As a result, it is possible to more reliably suppress the generation of hydrogen sulfide that may have been caused by the sulfur component constituting gypsum.

  The gypsum composition of the present invention is obtained by adding the above-described aluminum compound in a range of 0.8 to 20 parts by mass with respect to 100 parts by mass of calcined gypsum. That is, when the amount of aluminum compound added is less than 0.8 parts by mass with respect to 100 parts by mass of calcined gypsum, the effect of suppressing the generation of hydrogen sulfide is not sufficient, while more than 20 parts by mass is mixed. Things are not economical due to high material costs. Preferably, the aluminum compound may be added in the range of 3 to 20 parts by mass with respect to 100 parts by mass of calcined gypsum. More preferably, it is good to add an aluminum compound in the range of 8-15 mass parts with respect to 100 mass parts of calcined gypsum.

(Neutralizing agent containing calcium component or magnesium component)
Although the gypsum composition of this invention contains the neutralizing agent containing a calcium component or a magnesium component as needed, calcium hydroxide is especially suitable. In addition, calcium oxide, magnesium oxide, and magnesium hydroxide can also be used. Such components adjust the pH of the calcined gypsum and aluminum compound composition to a neutral range. Calcium hydroxide [Ca (OH) ₂ ] suitable for the present invention is obtained by adding calcium oxide. The calcium carbonate used as a raw material for calcium oxide may be heavy calcium carbonate or light calcium carbonate, and the type is not limited. The addition amount of the neutralizing agent may be in a range in which the treated product becomes neutral, specifically, in a range in which the pH of the gypsum composition of the present invention becomes 5.8 to 8.6. I just need it. For example, when calcium hydroxide is used as the neutralizing agent, it is preferable to add and mix in the range of 0.1 to 0.75 times the mass of the aluminum compound described above.

  Next, an Example and a comparative example are given and this invention is demonstrated concretely. In the following description, “part” is based on mass unless otherwise specified.

[Examples and Comparative Examples]
Using the calcined gypsum, the aluminum compound, and calcium hydroxide as the neutralizing agent, the gypsum compositions of Examples and Comparative Examples having the formulations shown in Table 1 were prepared. The calcined gypsum used was obtained by pulverizing and firing waste gypsum. As the aluminum compound, aluminum sulfate hydrate [Al ₂ (SO ₄ ) ₃ · 16H ₂ O] was used.

<Evaluation>
0.02 mL of acetic acid and 4 mL of Desulfovibrio desulfuricans NBRC 13699 ^T (4 × 10 ⁶ cells / mL) as sulfate-reducing bacteria are added to 1 kg of each gypsum composition of the examples and comparative examples having the formulations shown in Table 1. Each was cultured under anaerobic conditions. Note that this condition is quite harsh in order to generate hydrogen sulfide, and never reproduces the state of the site such as a soil reforming site or illegal dumping. The amount of hydrogen sulfide generated after curing for 1 month in the above state and the number of sulfate-reducing bacteria were measured. The obtained results are shown in Table 2.

As shown in Table 2, it was confirmed that in all cases where the gypsum composition of the example was used, generation of hydrogen sulfide was clearly suppressed as compared with the case of the comparative example. Furthermore, from the measurement results of the number of cells of sulfate-reducing bacteria, the activity of the sulfate-reducing bacteria is clearly suppressed in all cases using the gypsum composition of the example as compared with the case of the comparative example. Was confirmed. Further, 100 kg of the gypsum composition of the example was added to each 1 m ³ of mud having a water content of 40%, and then sufficiently kneaded and solidified. As a result, all the processed products are solidified and have sufficient strength to withstand handling, and all of them are in a range that is judged to be neutral without affecting the environment. confirmed.

  On the other hand, for example, a JIS A6901 gypsum board product molded into a plate shape using the gypsum composition of the example, a JIS A6904 gypsum plaster which is cured in a granular form by reacting with water, and a joint treatment material for JISA6914 gypsum board It was confirmed that gypsum-based building materials can be produced, and that no problems are caused in the production line for these gypsum-based building materials. It was also confirmed that the gypsum composition as a raw material had no adverse effects on the performance and workability of these gypsum building materials themselves. Furthermore, when a test was conducted under the same severe conditions as described above using a gypsum board or a gypsum plaster produced using the gypsum composition of the example as a raw material, generation of hydrogen sulfide was compared with the conventional one. Was clearly observed.

  An example of utilization of the present invention is a gypsum composition that can remarkably suppress the generation of hydrogen sulfide when used as a solidifying material for sludge or mud, although waste gypsum is used as a raw material. Examples of utilization of the present invention include gypsum compositions useful as raw materials for various gypsum-based building materials that can significantly suppress the generation of hydrogen sulfide even when illegally dumped. As an example of utilization of this invention, the gypsum composition which enables the effective utilization of waste gypsum is mentioned.

Claims (6)

  (A) With respect to 100 parts by mass of calcined gypsum, at least one aluminum compound selected from the group consisting of (B) aluminum oxide, aluminum chloride, aluminum hydroxide, aluminum sulfate and derivatives thereof is 0.8 to 20 masses. A gypsum composition capable of suppressing hydrogen sulfide generation, characterized by being added in a range of parts.   The gypsum composition according to claim 1, further comprising (C) a neutralizing agent containing a calcium or magnesium component. The aluminum compound (B) is aluminum sulfate hydrate [Al ₂ (SO ₄ ) ₃ .nH ₂ O], and (C) the neutralizing agent is calcium hydroxide [Ca (OH) ₂ ]. The gypsum composition according to claim 1 or 2, wherein the neutralizing agent (C) is added and mixed in a mass range of 0.1 to 0.75 times the mass of the aluminum compound (B).   The gypsum composition according to any one of claims 1 to 3, wherein a part or all of the calcined gypsum is obtained by calcining waste gypsum.   A gypsum-based building material comprising the gypsum composition according to any one of claims 1 to 4 as a raw material.   A gypsum-based solidifying material for soil treatment of construction residual soil, sludge, or mud soil, comprising the gypsum composition according to any one of claims 1 to 4.