JPH0656490A - Method for utilizing washing waste water of ready-mixed concrete plant - Google Patents

Abstract

PURPOSE:To provide a method for effectively utilizing washing waste water produced in a ready-mixed concrete plant by utilizing characteristics of the strong alkalinity of the washing waste water. CONSTITUTION:The supernatant water of a strong alkaline washing waste water produced in a ready-mixed concrete plant is mixed and neutralized with strong acidic volcanic ash. Furthermore, the supernatant water of strong alkaline washing waste water produced in the ready-mixed concrete plant is used as a neutralizing agent for acidic gases generated in a refuse incineration factory in a water scrubber of acidic gas removing equipment.

Description

Detailed Description of the Invention

[0001]

FIELD OF THE INVENTION The present invention relates to a method for effectively utilizing strong alkaline washing wastewater generated in a ready-mixed concrete plant,
More specifically, the present invention relates to a method of neutralizing volcanic ash with the waste water and using it as fine aggregate for concrete, or a method of neutralizing acid gas generated in a refuse incinerator.

[0002]

2. Description of the Related Art In a ready-mixed concrete (hereinafter referred to as ready-mixed concrete) plant, a mixer room for kneading concrete is washed every time the operation of one day ends, and every time a truck agitator car comes back to the factory, Clean the mixer. Since the cleaning wastewater generated in this work contains cement, which is a material for concrete, it is a strong alkali having a pH of 12 to 13. This washing wastewater contains gravel (crushed stone),
Since sand and cement are mixed, they are once collected in a settling basin to precipitate gravel (crushed stone), sand and cement, collect only the supernatant water, neutralize with hydrochloric acid, etc., and discharge to a general drainage channel. Further, in some plants, the supernatant water is used again as concrete mixing water. In this way, the supernatant water which is a strong alkali is not used, but it is discarded at the expense of the neutralization treatment, or it is reused only as kneading water.

Further, for example, volcanic ash generated in Sakurajima is
Depending on the wind direction, it is falling all over the year in various places in Kagoshima prefecture. This ash is swept and collected on the private land,
Put in the designated bag and collect at the designated place. The collected ash bags are collected by a collection company and are landfilled under strong acidity. Ash fall on public roads is also collected by road sweepers and landfilled. In this way, ash fall is not an industrial waste and is currently disposed of in landfill without treatment. However, it is wasteful that the ash fall, which is currently difficult to secure the final disposal site for industrial waste, is not used as a resource but is landfilled as garbage. As described above, the strong alkaline supernatant water generated in the raw plant and the strongly acidic volcanic ash generated in Kagoshima prefecture are
Not effectively used as a resource.

Further, the exhaust gas from the municipal refuse incineration plant contains acid gas. The water scrubber (wet exhaust gas cleaning device) of the acidic gas removal equipment for treating this acidic gas uses alkaline solution or fresh water as a neutralizing agent (absorption liquid) (hydrogen chloride gas, sulfur dioxide gas, etc. Because it is easy to dissolve). There are various types of water scrubbers, but in each case, a large amount of neutralizer (absorption liquid) is supplied into the scrubber to efficiently contact the exhaust gas. The exhaust gas is cooled to the saturation temperature and absorbs the acidic gas in the exhaust gas. Alkaline drugs are used in the absorption liquid. This method has excellent acid gas removal performance, and the HCl concentration at the outlet is 30 ppm or less,
The removal rate can be 95% or more for HCl and 80% or more for SO _x , and the reaction rate of chemicals is extremely high at almost 100%. In the refuse incineration plant, the acid gas is removed by neutralizing the acid gas using the above water scrubber. This neutralizing agent (absorption liquid) includes sodium hydroxide [NaOH] and calcium hydroxide [Ca
The conventional technique uses an alkaline solution such as (OH) ₂ ] or fresh water.

[0005]

[Problems to be Solved by the Invention] The cleaning wastewater generated in the ready-mixed plant is 1 in a factory with a monthly shipment of 10,000 m ^3.
It averages 60 to 70 tons per day. Also, the washing wastewater shows a strong alkalinity of pH 12 to 13 because gravel (crushed stone), sand, cement, which are the main materials used for ready-mixed concrete,
Of water, it is mainly derived from cement. That is, since calcium oxide as a cement component (limestone CaCO ₃ decomposes to become calcium oxide CaO by igniting strongly) and water are mixed in the washing wastewater, calcium hydroxide [CaO + H ₂ O → Ca
(OH) ₂ ) and shows strong alkalinity. In the current raw plant, this strong alkaline washing wastewater is
At present, it is neutralized by adding an acid such as hydrochloric acid and discharged into a general drainage channel. In some cases, cleaning wastewater is collected,
Only the supernatant water is reused as kneading water, and the current situation is that it is wasted without taking advantage of the strong alkaline property of the washing wastewater.

[0006] Therefore, an object of the present invention is to provide a method for effectively utilizing the cleaning wastewater generated in a ready-mixed concrete plant by utilizing its strongly alkaline property.

[0007]

In order to achieve the above object, a first aspect of the present invention is to neutralize the supernatant of strong alkaline washing wastewater produced in a fresh concrete plant by mixing it with strongly acidic volcanic ash. Characterize.

The first invention is used, for example, in fine aggregate for concrete. In general, when an acidic aggregate is used for concrete, the strength of the concrete becomes insufficient in the medium to long term, and the neutralization becomes premature and deteriorates. Therefore, in order to use acidic volcanic ash as fine aggregate for concrete, it is preferable to perform neutralization treatment before using it as fine aggregate for concrete. The washing wastewater generated from the ready-mixed plant is WH of Toyo Roshi Kaisha, Ltd.
When tested using OLE RANGE test paper, pH
12 to 13 (varies depending on each raw plant, but is generally said to be in the range of pH 10 to 13). Is a compound that has a hydroxyl group that can be (OH ⁻ ). Most of the volcanic ash is composed of silicon oxide (SiO ₂ ) in terms of chemical substance, and aluminum oxide (A
L ₂ O ₃ ), iron oxide (Fe ₂ O ₃ ), and the like. Volcanic ash exhibits strong acidity because sulfur dioxide gas or hydrogen chloride gas, which is filled near the crater where volcanic ash erupts, adheres to the ash, which interacts with water vapor to form sulfurous acid (H ₂ SO ₃ ) or hydrochloric acid (HCl). ) And other harmful substances that fall with the ash. Volcanic ash was collected by Toyo Roshi Co., Ltd.
When examined using NGE test paper, it has a pH of 3-4 (the volcanic ash that has just fallen is said to have a pH of 2-3). Therefore, it can be said that this is a compound that gives hydrogen ions (H ⁺ ) to other substances. To neutralize the volcanic ash, it can be mixed with a compound having alkaline properties. But,
To carry out the neutralization treatment, sodium hydroxide (NaO
H), calcium hydroxide (Ca (OH) ₂ ) and other compounds that have alkaline properties, so equipment costs and drug costs are incurred, making it expensive for concrete using volcanic ash. I will end up.

Therefore, according to the first aspect of the present invention, strong alkaline washing wastewater generated in a ready-mixed plant and strong acidic volcanic ash are mixed and neutralized, and used as fine aggregate for concrete. More specifically, in the raw plant, the washing wastewater is collected in a settling tank, sludge is precipitated to make supernatant water (strong alkaline), and the equipment is provided so that this supernatant water can be used as kneading water for concrete. Also, even in a plant that is not equipped with equipment, the supernatant water can be used as kneading water by piping to a water measuring tank and attaching a solenoid valve. As mentioned above, in the raw plant, supernatant water (strong alkali) as kneading water, coarse aggregate {crushed stone, gravel}, fine aggregate {sand + volcanic ash (strong acidity)}, cement, and admixture as necessary Blending
If kneaded with a mixer, it can be used as concrete.

In JIS A5308 (JIS raw concrete standard), the use of sludge water as kneading water is regulated, but the use of supernatant water is not regulated. Like this, J
There is no problem in kneading with IS using clear water.
That is, there is no problem even if kneading water having a pH of 7 to 13 is used. Therefore, in the control in the neutralization treatment using the strongly alkaline supernatant water and the strongly acidic volcanic ash, only the acidic side needs to be controlled, so that the production is very easy.

Also, in Kagoshima Prefecture, etc., volcanic ash generated as ash fall is collected at a dumping site and is landfilled at a final disposal site, but since it is not an industrial waste, strong acidity is not neutralized. The current situation is that landfills are being carried out at. To put it simply, the pH is diluted 10 times and only decreases by 1. Therefore, it is necessary to adjust the pH value of 3 to 1,000.
You have to dilute it twice. As described above, to neutralize strongly acidic substances with neutral substances such as rainwater at pH 7,
You need 1000 times more water just by lowering 3 (p
Even if diluted with H7 water, it only approaches pH7). In reality, this is nearly impossible, so volcanic ash landfilled at the final disposal site will not be neutralized by rainwater in the short term. Therefore, from the viewpoint of environmental protection in the vicinity of the final disposal site, neutralization can be carried out at low cost if the volcanic ash is managed and sprinkled with the washing wastewater of strong alkali generated in the ready-mixed plant.

The second aspect of the present invention is to use the supernatant water of the strong alkaline washing wastewater produced in a ready-mixed concrete plant as a neutralizing agent for the acidic gas generated in a refuse incinerator in a water scrubber of an acidic gas removing facility. Is characterized by.

In an incinerator of an urban refuse cleaning plant, acid gas is contained in incinerator exhaust gas. To treat these acidic gases, neutralization cleaning treatment is performed with an alkaline solution such as calcium hydroxide or sodium hydroxide. Therefore, it is said that the amount of alkaline chemicals required all over Japan is 500,000 tons per year, which is about 13 billion yen. As described above, it is expensive to perform neutralization cleaning with calcium hydroxide or sodium hydroxide. An alkaline solution used as a neutralizing agent in a water scrubber in the conventional technique is calcium hydroxide (C
It is used as a (OH) ₂ ). The strong alkaline washing water (supernatant water) generated in the ready-mixed plant also becomes calcium hydroxide (Ca (OH) ₂ ) because water is added to CaO, which is the main component of cement, and is currently used for neutralization. It is the same ingredient as the agent. Therefore, if you use the washing wastewater (supernatant water) of strong alkali generated in the ready-mixed plant,
Acidic gas can be removed at low cost. Because there is no need to install new equipment by using the supernatant water in the incineration plant, the existing equipment can be used as it is, and since the supernatant water that has been discarded until now is used as the neutralizing agent,
The drug cost is very low. Also in terms of the transportation cost of cleaning wastewater, a truck agitator vehicle is always provided for transporting the raw concrete in the raw concrete plant. By transporting with this vehicle, a dedicated vehicle is not required and it can be transported at low cost.

[0014]

[Example] In order to neutralize the volcanic ash with the supernatant water of the washing wastewater generated in the ready-mixed plant and use it as fine aggregate for concrete, before producing concrete,
Perform the following neutralization aptitude test and confirm it before manufacturing. Neutralization aptitude test Mixing volcanic ash and supernatant water at the ratio of the amount of volcanic ash used and the amount of unit water (considering surface water) in the formulation, pH test should be carried out, and if the pH is 7 or more (as described in the previous section According to JIS, supernatant water pH 7 to pH 13 may be used as kneading water). Table 1 shows the formulation.

[Table 1]

Example 1. a. Purpose Neutralization suitability test b. The test results are shown in Table 2.

[Table 2]

Example 2. a. Purpose The quality of the concrete using volcanic ash is confirmed by replacing some of the volcanic ash with the already-proven fine aggregate of normal concrete and performing trial kneading. b. Specifications Conditions Item Condition Nominal strength 210kg Slump 12cm Air volume 4.0% Coarse aggregate size 20mm Cement type Ordinary Portland Admixture type AE Water reducing agent c. Compressive strength test A test kneading was carried out based on the indicated composition, and a 1-week and 4-week strength test was carried out. The test results are shown in Table 3.

[Table 3] d. Results Using volcanic ash as fine aggregate for concrete is no different from ordinary concrete.

[0017]

The following effects are brought about by effectively using the supernatant water of the strong alkaline washing wastewater generated in the raw plant. (1) By reducing the amount of strongly acidic volcanic ash that is generated in Kagoshima Prefecture and disposed of as landfill as waste, and then effectively using it as a resource such as fine aggregate for concrete, the amount of waste can be reduced. . In addition, as it is difficult to secure the final disposal site, it is urgent to extend the life of the final disposal site in operation.
Therefore, reducing the amount of garbage is important.

(2) Volcanic ash is not treated as industrial waste and is disposed of in landfill without being treated because it is not regulated by industrial waste.
Therefore, in order to preserve the environment around the final disposal site, it should be neutralized and landfilled. However, neutralization with caustic soda costs a huge amount of maintenance and maintenance, so it is currently untreated and landfilled. According to the present invention, by effectively using the supernatant water that has been discarded, neutralization can be performed at a low cost, which is useful for environmental conservation around the final disposal site.

(3) For the water scrubber of the neutralization cleaning equipment for removing the acidic gas generated in the municipal refuse incineration plant,
By using the supernatant water of strong alkali generated in the ready-mixed plant, the running cost of neutralization cleaning at the incineration plant will be reduced and the economic effect will be great. Neutralizing washing with alkaline supernatant water is useful for environmental protection. Moreover, since the supernatant water that has been neutralized with hydrochloric acid or the like in the raw plant and discarded can be effectively used, the present invention provides both advantages.

Claims (2)

[Claims] 1. A method for utilizing the washing wastewater of a fresh concrete plant, which comprises mixing the supernatant water of a strong alkaline washing wastewater generated in the fresh concrete plant with neutralizing strongly acidic volcanic ash. 2. The fresh concrete, characterized in that the supernatant water of the strong alkaline washing wastewater generated in the fresh concrete plant is used as a neutralizing agent for the acidic gas generated in a refuse incineration plant in a water scrubber of an acidic gas removing facility. How to use plant cleaning wastewater.