KR20060010678A - Washing water neutralizer of waste concrete recycling aggregate manufacturing device - Google Patents

Abstract

The present invention relates to a washing water neutralizing device of the waste concrete recycled aggregate manufacturing apparatus, by using the washing water neutralized (pH 7 ± 0.5) to greatly improve the effect of washing the recycled aggregate and remove the surface foreign matters, as well as a significant increase in addition. It can prevent water pollution and greatly reduce the use of flocculant.

[Configuration]

The primary sedimentation chamber 11 is provided with the raw water discharged from the pipe connected to the raw water tank of the waste concrete recycling aggregate manufacturing apparatus, and the raw water overflowed from the primary sedimentation chamber 11 is stored again. A water tank 10 composed of the secondary settling chamber 12; A pH measuring device 13 for checking the pH value of the raw water in the secondary precipitation chamber 12 and delivering it to the control unit 30; A pump 14 for pumping the raw water in the secondary precipitation chamber 12 into the neutralization reaction tank 15; According to the raw water pH value of the secondary precipitation chamber 12 checked by the pH measuring device 13, a proper amount of the lactic acid stored in the lactic acid (H ₂ SO ₄ ) tank 16 may be discharged and supplied into the neutralization reaction tank 15. A solenoid valve 17 and a miscarriage tank 16 controlled by the control unit 30 so as to be able to operate; A neutralization reaction tank 15 for neutralizing the lactic acid supplied from the lactic acid tank 16 and the raw water supplied from the secondary precipitation chamber 12 to a pH of 7 ± 0.5; Check whether the raw water in the neutralization reaction tank 15 is neutralized to the desired pH value and deliver it to the control unit 30 so that the control unit 30 maintains the raw water pH value in the neutralization reaction tank 15 to be neutral. A pH measuring device 18 for controlling the solenoid valve 17 so as to adjust the input amount of lactic acid from time to time; A pump 19 for supplying the neutralized water neutralized in the neutralization reaction tank 15 to the neutral water tank 20; It is characterized in that the neutral water tank 20 for storing the neutral water supplied from the neutralization reaction tank 15 is connected to the pump (P2) of the waste concrete recycling aggregate manufacturing apparatus to supply neutral water to each line.

Waste concrete, recycled, neutral water

Description

Washing water neutralizer of waste concrete recycling aggregate manufacturing equipment

1 is a reference diagram showing a state of use of the apparatus of the present invention as a process diagram of a conventional waste concrete recycling aggregate manufacturing apparatus.

2 is a reference diagram showing the washing water neutralizing device of the present invention.

<Description of the symbols for the main parts of the drawings>

10: raw water tank 13, 18: pH measuring device

14, 19: pump 15: neutralization tank

16: lactic acid tank 17: solenoid valve

20: neutral water tank

The present invention relates to a washing water neutralization device of the waste concrete recycled aggregate manufacturing apparatus, by using the washing water neutralized (pH 7 ± 0.5) to greatly improve the effect of washing the recycled aggregate and remove the surface foreign matter significantly increased the additionality In addition, it can prevent water pollution and greatly reduce the use of flocculant, so it has excellent economical efficiency. At the same time, it prevents the corrosion of crack and reinforcing steel when forming concrete structure using recycled aggregate washed with neutral water. Reducing features also have features that cannot be overlooked.

It is true that modern comprehensive building technology and culture brought about dramatic development and change due to the development of concrete construction method. However, in order to make concrete, cement, sand, aggregate (gravel), and water must be provided as essential elements, the consumption of natural stone and river sand has increased exponentially. One sand was in severe exhaustion. In order to cope with the sand depletion phenomenon, the sea sand was inevitably collected and washed.The sea sand has a high salt content and high alkalinity, which leads to the degradation of the concrete structure. The process of recycling aggregate and sand from materials has been developed, and the demand for recycled aggregate and recycled sand is increasing day by day.

However, in order to produce aggregate and sand using waste concrete, the problem of crushing the waste concrete and washing in each process of the process is necessarily accompanied. On the other hand, since the recycled aggregate and recycled sand production apparatus using waste concrete has a large scale, the amount of washing water used is very large. Therefore, it is difficult to use expensive tap water because it is poor in economical efficiency. It is in a position to pursue economic feasibility to the maximum. However, concrete (including waste concrete) has a high alkalinity of pH 11 or higher, and industrial groundwater also has a high alkalinity of pH 11 or higher, so that it is possible to clean the surface of the first crushed waste concrete and remove foreign substances from the surface. As a result of washing high alkaline substances with high alkaline washing water, the washing effect was not good. Therefore, the surface of the recycled aggregate and the surface of the recycled sand cannot be cleaned cleanly, and the residual amount of foreign matters on the surface increases, so that the additionality is deteriorated. In addition, when the concrete is used to form a concrete building, cracks are generated during the curing of concrete. This is becoming more serious and one of the causes of the adverse effect of further promoting the corrosion of the rebar.

In addition, lost water generated by operating the above manufacturing equipment and sediment water generated from recycled aggregates and recycled sands contaminate the water environment. It is holding. In addition, as described above, the washing water used to wash the highly alkaline recycled aggregate and the recycled sand is also highly alkaline, so that the amount of flocculant is used more than necessary, while the washing effect is not relatively increased, resulting in poor economic efficiency. It is expected that serious problems will be caused in many ways if the current system is maintained in the future if the environmental legislation on the front and the durability of concrete structures are strengthened in the future.

The present invention is devised to solve the problems and disadvantages of the conventional waste concrete recycled aggregate manufacturing apparatus described above is as follows.

The primary sedimentation chamber 11 is provided with the raw water discharged from the pipe connected to the raw water tank of the waste concrete recycling aggregate manufacturing apparatus, and the raw water overflowed from the primary sedimentation chamber 11 is stored again. A water tank 10 composed of the secondary settling chamber 12; A pH measuring device 13 for checking the pH value of the raw water in the secondary precipitation chamber 12 and delivering it to the control unit 30; A pump 14 for pumping the raw water in the secondary precipitation chamber 12 into the neutralization reaction tank 15; According to the raw water pH value of the secondary precipitation chamber 12 checked by the pH measuring device 13, a proper amount of the lactic acid stored in the lactic acid (H ₂ SO ₄ ) tank 16 may be discharged and supplied into the neutralization reaction tank 15. A solenoid valve 17 and a miscarriage tank 16 controlled by the control unit 30 so as to be able to operate; A neutralization reaction tank 15 for neutralizing the lactic acid supplied from the lactic acid tank 16 and the raw water supplied from the secondary precipitation chamber 12 to a pH of 7 ± 0.5; Check whether the raw water in the neutralization reaction tank 15 is neutralized to the desired pH value and deliver it to the control unit 30 so that the control unit 30 maintains the raw water pH value in the neutralization reaction tank 15 to be neutral. PH measuring device 18 to control the solenoid valve 17 so as to control the amount of lactic acid input from time to time: to supply the neutralized neutralized water from the neutralization reaction tank 15 to the neutral water tank 20 A pump 19; It is characterized in that the neutral water tank 20 for storing the neutral water supplied from the neutralization reaction tank 15 is connected to the pump (P2) of the waste concrete recycling aggregate manufacturing apparatus to supply neutral water to each line.

Hereinafter, a detailed configuration and use state of the present invention will be described with reference to the accompanying drawings. On the other hand, in the structure description of the present invention to be described later, the pipeline is not described separately by specifying a number, the electrical and electronic control method and circuit of the control unit 30 is a level that can be easily implemented by those in the art This too will not be described in detail.

1 is a reference diagram schematically showing a conventional waste concrete recycled aggregate manufacturing apparatus (hereinafter may be referred to as a manufacturing apparatus), the following examples are based on the waste concrete recycled aggregate manufacturing apparatus used by the present inventors .

First, the ground water is pumped to the raw water tank by pumping it with a pump (P1). When ground water (hereinafter referred to as raw water) is filled in a raw water tank of about 350 tons (actual use capacity is about 300 tons), it is about 10 per day. The pumping amount of the pump P1 is adjusted so that only tons of raw water is supplied. The reason is that the amount of lost water per day of the manufacturing apparatus described later is about 10 tons, so that the amount of lost water is replenished.

Subsequently, a large-capacity pump (P2) supplies raw water in the raw water tank to a salting tank (primary tank for separating various waste and waste concrete) or water using devices (A, B) of each crusher, aggregate, and sand production device. Let's do it. Thus, the water used through the salting tanks or the respective water-use devices (A, B) (for washing waste concrete fragments, aggregates, sand) has a capacity of about 350 tons (actual use capacity) via pumps (P3, P4, P5). Is collected in a wastewater tank of about 300 tons and then a large amount of flocculant is added in the process of moving to a submersible tank through a pump (P6). The water mixed with the conventional flocculant is accumulated in the immersion tank, and various foreign substances aggregated by the flocculant are sedimented and collected under the immersion tank. The aggregated water is overflowed and is reduced to the raw water tank again. The pump P2 supplies the raw water back to each water use line as described above. This action continues to circulate and the lost water lost in this series of processes is replenished as described above by the pump P1. Thus, the daily supply of groundwater is about 10 tonnes, and about 290 tonnes of raw water is circulated continuously.

Here, the pH value of the groundwater was always detected at pH 10-11, and the water inside the immersion tank was almost pH 11-12. As a result, about 100 experiments were performed using litmus paper. to be. For reference, the pH value of the waste concrete is pH 11-12. In this state, the waste concrete fragments, aggregates, and sand are washed while continuously circulating about 290 tons of WIN water as per the day. Therefore, as described above, the high-alkaline aggregates are washed with highly alkaline washing water. As a result, the cleaning effect was low and the removal effect of the foreign matter stuck to the surface of the aggregate and sand was inevitably low. Also, about 10 tons of lost water per day is highly alkaline water, which is one of the causes of water pollution. In addition, the sludge settled below the immersion tank is transferred to a filter press (not shown separately) through a pump (not shown separately) to be converted into a cake, which is transferred to a waste disposal company for disposal. It is also highly alkaline, which is never desirable from an environmental point of view.

Therefore, the present invention has obtained the experimental results that the washing of the waste concrete fragments, aggregates, sand using neutral water is the most preferable in terms of environmental or economic and will be described in detail the structure and operation of the present invention.

FIG. 2 shows the structure of the present invention, and the water in the raw water tank flows through the pipe extending from the raw water tank of FIG. 1 to be supplied into the primary settling chamber 11 of the used water tank 10. Naturally, a pump may be used instead of the flow system. The water collected in the primary sedimentation chamber (11) overflows as shown in the drawing and collects again into the secondary sedimentation chamber (12). In (15) only relatively clean water is to be supplied. Of course, although not shown in the drawings, the sludge discharge port is installed below the primary precipitation chamber 11 and the secondary precipitation chamber 12, and the sludge discharged through them is naturally taken to the filter press.

Since water accumulated in the secondary precipitation chamber 12 is water immediately before being supplied to the neutralization reaction tank 15, the pH measuring device 13 measures the pH value and delivers it to the control unit 30. Subsequently, the control unit 30 calculates the pH value measured by the pH measuring device 13 and neutralizes a certain amount of lactic acid by opening the solenoid valve 17 connected to the lactic acid tank 16 for several minutes. It is decided whether to put into the reactor (15). For reference, the capacity of the neutralization reactor 15 is about 5 tons. Subsequently, when the water in the secondary settling chamber 12 is supplied into the neutralization tank 15 by the pump 14, the control unit 30 opens the solenoid valve 17 to supply the lactic acid into the neutralization tank 15. While neutralizing by stirring with water, 12.5 tons of water is supplied (about 12.5 tons per hour: 300 tons ÷ 24 hours = 12.5 tons), and 1,575 cc of lactic acid is supplied. In other words, since 75% of the lactic acid used to neutralize 1 ton of water is 126cc, the experiment has confirmed that 1,575cc of lactic acid is used to neutralize 12.5 tons of water. For reference, when the concentration of lactic acid is increased, the input amount is increased, and when the concentration of lactic acid is increased, the input amount is decreased, but according to the experiment of the present invention, it was found that the concentration is 75%.

As such, when the 12.5 tons of water is neutralized, the pH measuring device 18 continuously checks the pH value of the water in the neutralization reaction tank 15 and delivers it to the control unit 30. Therefore, the exact amount of miscarriage will be determined. However, since the input amount of lactic acid is precisely controlled in the control unit 30, the pH measuring device 18 may be omitted in some cases.

Subsequently, neutralization is completed at a pH of 7 ± 0.5, and the neutral water in the neutralization tank 15 is moved to the neutral water tank 20 through the pump 19, and the neutral water is collected by the pump P2. It is supplied to each water use line as shown, raw water from the pump 14 is continuously supplied into the neutralization reaction tank 15 and neutralized neutral water is also continuously supplied to the neutral water tank through the pump 19, As used, the water used is reduced to the raw water tank, which is supplied to the neutral water tank 20 while being neutralized with neutral water through the apparatus of the present invention as described above, and discharged from the neutral water tank 20. Thus, the water used in the water using apparatus is naturally returned to the raw water tank while the pH value is increased to about 8 to 9, which is introduced into the neutralization tank 15 through the using water tank 10 of the present invention. At this time, since the pH value was lower than that of the original raw water, the amount of lactic acid was also reduced by 30 to 40%. On the other hand, as a result of using the apparatus of the present invention, the input amount of the flocculant was reduced by about 2/3 compared with the conventional one.

As a result of washing the waste concrete, aggregate, and sand with neutral water produced using the apparatus of the present invention, the cleaning effect was increased by about 40% compared to the aggregate and sand made with the existing apparatus. It was also found that about 50% of foreign matter (high alkaline foreign matter: high alkaline foreign matter that adversely affects the concrete curing) was also removed. In addition, as a result of checking the pH value of the lost water, it was found that it is close to the neutral water, which is relatively unaffected by water pollution.

The present invention as described above, by using the wash water, which is essentially used in the waste concrete recycled aggregate manufacturing apparatus by changing to neutral water, the cleaning effect including the removal of foreign substances in the recycled aggregate and sand can be improved to obtain high added value In addition, when the concrete structure is formed using the recycled aggregate and sand through the present invention, not only can increase durability and further suppress corrosion of reinforcing bars, but also significantly reduces the amount of flocculant used, thereby improving economic efficiency and neutralizing lost water. Since it is close to water, it is useful to prevent water pollution.

Claims (1)

The primary sedimentation chamber 11 is provided with the raw water discharged from the pipe connected to the raw water tank of the waste concrete recycling aggregate manufacturing apparatus, and the raw water overflowed from the primary sedimentation chamber 11 is stored again. A water tank 10 composed of the secondary settling chamber 12; A pH measuring device 13 for checking the pH value of the raw water in the secondary precipitation chamber 12 and delivering it to the control unit 30; A pump 14 for pumping the raw water in the secondary precipitation chamber 12 into the neutralization reaction tank 15; According to the raw water pH value of the secondary precipitation chamber 12 checked by the pH measuring device 13, a proper amount of the lactic acid stored in the lactic acid (H ₂ SO ₄ ) tank 16 may be discharged and supplied into the neutralization reaction tank 15. A solenoid valve 17 and a miscarriage tank 16 controlled by the control unit 30 so as to be able to operate; A neutralization reaction tank 15 for neutralizing the lactic acid supplied from the lactic acid tank 16 and the raw water supplied from the secondary precipitation chamber 12 to a pH of 7 ± 0.5; Check whether the raw water in the neutralization reaction tank 15 is neutralized to the desired pH value and deliver it to the control unit 30 so that the control unit 30 maintains the raw water pH value in the neutralization reaction tank 15 to be neutral. A pH measuring device 18 for controlling the solenoid valve 17 so as to adjust the input amount of lactic acid from time to time; A pump 19 for supplying the neutralized water neutralized in the neutralization reaction tank 15 to the neutral water tank 20; Waste water, characterized in that consisting of a neutral water tank 20 for storing the neutral water supplied from the neutralization reaction tank 15 and the pump (P2) of the waste concrete recycling aggregate manufacturing apparatus is connected to supply the neutral water to each line Washing water neutralizer of concrete recycling aggregate manufacturing device.

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