JP2000079321A - Means and equipment for purifying ventilation gas of tunnel - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent air pollution due to exhaust gas in a tunnel by a method wherein a purifying equipment is provided in a ventilation tunnel and polluted gas passing through the ventilation tunnel is passed through the purifying equipment so that pollutants are absorbed and removed by a gas pollutant absorbing agent comprising an alkali substance provided in the purifying equipment. SOLUTION: A ventilation port 20 is provided in a tunnel to purify polluted gas due to automobile exhaust gas in the tunnel, thereby discharging ventilation gas from the port 20 via a ventilation tunnel 10 to a ventilation tower 30. A purifying equipment 100 is provided in the tunnel 10 to pass ventilation gas passing through the tunnel 10 through the equipment 100. In the equipment 100, there is provided a polluted gas absorbing agent composed of alkali substances so that polluted gas is passed through the absorbing agent. Thus, global-warming effecting substances such as nitrogen dioxides, carbon dioxide, source materials of acid rain, and suspended particulate matters contaminated by exhaust gas of automobiles are removed.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for purifying polluted gas, and more particularly to a means and a device for purifying pollutant gas due to automobile exhaust gas in a tunnel.

[0002]

2. Description of the Related Art At present, air pollution caused by automobile exhaust gas has become a major social problem as seen in the Kawasaki pollution lawsuit. In the past, along with the tightening of regulations of the Air Pollution Control Law, each automobile manufacturer has been trying to reduce the amount of exhaust gas generated per vehicle. In addition, fuel conversion, promotion of idling stop of buses and trucks, etc. In addition, measures for air pollution along roads are being comprehensively implemented. However, at the automobile exhaust gas measurement stations in specific areas of the Tokyo metropolitan area and Osaka and Hyogo based on the Automobile Nox Act, the achievement rate of the environmental standards in FY1996 fell from about 41% in FY1995 to about 33%. ing.

Therefore, in order to further achieve the environmental standards, it is necessary to take measures in consideration of the reduction of atmospheric pollutants. In other words, it is necessary to take measures to purify air pollutants actually released into the atmosphere. However, removing pollutants from a widely diluted atmosphere would require enormous capital and operating costs, and would not provide effective air pollutant removal. .

[0004] Therefore, in order to effectively purify the air environment, a place where pollutants such as nitrogen oxides, suspended particulate matter, carbon monoxide and carbon dioxide emitted from automobiles are accumulated at a high concentration. Can be removed by
Considering these points, it is considered effective to remove pollutants of polluting gas in the automobile tunnel.

However, ventilation in a tunnel section of an existing road is performed for the purpose of securing a visibility distance necessary for safety measures and for diluting carbon monoxide and the like, and is performed for the purpose of removing suspended particulate matter. Some facilities are equipped with a dust collector, but no measures have been taken to purify air pollutants such as nitrogen dioxide.

[0006] On the other hand, newly constructed roads are increasingly taking a tunnel structure to reduce noise and effectively use land, and there is no measure to remove air pollutants including nitrogen dioxide around the associated ventilation tower. Then local consensus is no longer available.

[0007]

However, in order to effectively remove pollutants such as nitrogen dioxide, carbon dioxide, and carbon monoxide from the ventilation gas of the tunnel, it is necessary to provide a pollutant removal facility in the tunnel as follows. It had the following problems.

The cross-sectional area of a ventilation tunnel installed in a normal tunnel is set as small as possible in order to reduce construction costs. However, if the cross-sectional area is reduced, the linear velocity of the ventilation tunnel becomes extremely high. As a result, sufficient gas-liquid absorption cannot be performed.

In addition, the conventional gas-liquid absorption rate requires too much equipment cost, so that the absorption rate needs to be increased in order to reduce the equipment cost.

[0010] Furthermore, the used liquid which has absorbed nitrogen dioxide and other pollutants usually has a high acidity and has a drawback that it cannot be discharged into the sewer because it causes secondary pollution. Things.

The present invention has been made in view of the above-mentioned problems, and the present invention has been made to remove pollutants such as carbon dioxide and carbon monoxide, such as nitrogen dioxide, in a conventional ventilation tunnel. It is an object of the present invention to provide a ventilation gas purifying means and a purifying equipment capable of effectively absorbing and removing the gas from the air to the ventilation tower.

[0012]

In order to solve the above-mentioned problems, the invention according to claim 1 is a ventilation gas purifying means for purifying pollutant gas in a tunnel,
Providing a purification facility in the ventilation tunnel, allowing the pollutant gas passing through the ventilation tunnel to pass through the purification facility, and absorbing and removing the pollutant with a gas pollutant absorbent made of an alkaline substance in the purification facility. This is the gist.

[0013] A second aspect of the present invention is a ventilation gas purifying facility installed in a ventilation tunnel and used for purifying pollutant gas in the tunnel. The gas purification equipment includes a gas pollutant absorbent made of an alkaline substance, and the ventilation gas purification equipment characterized by absorbing and removing the contaminants by passing the pollutant gas passing through the ventilation tunnel through the purification equipment, Is the gist.

[0014] Further, according to a third aspect of the present invention, there is provided a tunnel exhaust gas purifying means according to the first aspect, wherein the alkaline substance is sodium hydroxide. Things.

[0015]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to an embodiment shown in the drawings. FIG. 1 shows an embodiment of a ventilation tunnel 10 in which ventilation gas purifying means is installed. As mentioned above, for tunnels with a certain length,
Usually, a ventilation port 20 is provided inside the tunnel for the purpose of securing a visibility distance necessary for traveling and diluting carbon monoxide, and ventilating gas is discharged from the ventilation port 20 to an external ventilation tower 30 through the ventilation tunnel 10. are doing. Purification equipment 10
Numeral 0 is provided in the ventilation tunnel 10, and when the ventilation gas passes through the ventilation tunnel 10, the gas passes through the purification facility. The purification facility 100 contains a contaminant absorbent made of an alkaline substance, and the purification facility 100 is configured so that a contaminated gas passes through the contaminant absorbent. The contaminant absorbent made of the alkaline substance is circulated by a pump, and those whose absorption capacity has deteriorated can be discharged to the sewer.

Now, the technical idea of such ventilation gas purifying means and purifying equipment will be described below. An object of the present invention is to remove the suspended particulate matter only by a dust collector as a conventional method of treating exhaust gas in a tunnel, but to remove nitrogen dioxide, which is highly contaminated by exhaust gas from automobiles. To remove global warming substances such as carbon dioxide, substances that cause acid rain, suspended particulate matter, and the like.

Here, considering a suitable place for purifying the ventilation gas in the tunnel, as shown in FIG. 1, ventilation is performed from the ventilation port 20 which is a passage for discharging the ventilation gas in the tunnel to the outside. It is considered to be most suitable to perform absorption removal in the ventilation tunnel 10 up to the tower 30. However, the ventilation tunnel 1 which is usually installed
In order to keep construction costs as low as possible, 0 is set to the minimum cross-sectional area required for ensuring safety by preventing the exhaust gas from remaining in the tunnel. As described above, if the cross-sectional area is set to be small, the linear velocity of the contaminated gas in the ventilation tunnel 10 is inevitably increased.

On the other hand, when a unit operation is performed to absorb gas-liquid contaminants such as nitrogen dioxide with an absorbing solution, the linear velocity of the gas to be absorbed is usually about 1 m / sec. I have. However, the discharge speed of the pollutant gas in the ventilation tunnel 10 usually has a linear velocity of about 12 m / sec, which is about 10 times the normal linear velocity required for performing sufficient gas-liquid absorption. Is discharged about 15 times faster. For these reasons, contaminants cannot be effectively removed by ordinary gas-liquid absorption operations. For example, in a 2000m class tunnel, the amount of exhaust gas required to ensure safety is about 2
Although it is about 50 m ³ / sec, if the processing is performed at a normal linear velocity of gas-liquid absorption, the cross-sectional area of the ventilation tunnel needs to be about 250 m ² . On the other hand, since the cross-sectional area of the ventilation tunnel in the actual tunnel is about 25 m ² , even if the unit operation by gas-liquid absorption usually used in the normal ventilation tunnel is performed,
They cannot effectively remove contaminants.

Therefore, the present invention uses an alkaline substance as a contaminant absorbent. By using this alkaline substance, as described below, the mass transfer rate is increased, and the contaminants can be sufficiently absorbed even in the cross-sectional area of a ventilation tunnel installed in a normal tunnel. It is.

FIG. 2 schematically shows a unit operation of gas-liquid absorption of pollutants of exhaust gas. For comparison, the case of water is also shown. When water is used as the absorbing substance, the rate at which the contaminant is absorbed into the liquid is determined by the movement of the contaminant at the boundary surface or diffusion on the absorbing liquid side. Therefore, a concentration gradient is formed in the absorption. On the other hand, when an alkaline substance is used, pollutants such as nitrogen dioxide and carbon dioxide immediately undergo a chemical reaction with the alkaline substance, the instantaneous concentration becomes almost zero, and the absorption rate is dramatically improved. The alkaline substance used here can be appropriately selected by the user from various conditions such as price and harmfulness. Here, sodium hydroxide is used from various conditions. As described above, by using an alkaline substance as the absorbing substance, the polluted gas can be purified by using the cross-sectional area of the conventional ventilation tunnel as it was impossible at a normal absorption rate. It becomes.

By the increase of the absorption rate, the following effects can be obtained. First,
First, equipment costs can be reduced. An increase in the absorption rate also means a proportional increase in throughput. Generally, the relationship between the processing capacity of the equipment and the equipment is as follows.

Equipment cost = (Equipment capacity a₀/ Facility capacity a₁)^1/2  For example, processing capacity is 250m^Three/ Sec equipment cost is 100 million
2500m in circle^Three/ Sec equipment cost is 10^1/2
Double 3.2 times, that is, equipment with 10 times the processing capacity
To make it, it costs 3.2 times more and costs about 300 million yen.
It can be made. In this way, the absorption capacity
By increasing the cost, equipment costs will be significantly reduced and reduced
You can do it.

Second, by using an alkaline substance, it is possible to prevent a secondary disaster caused by disposal of a used absorbent having deteriorated absorption capacity. Absorbent must be discharged out of the system due to absorption of contaminants.If water or solvent is used, the solvent itself may be difficult to dispose of, or if water is used. Also, liquids that have absorbed pollutants such as nitrogen dioxide and carbon dioxide are acidic. Will be. However, if an alkaline substance is used, a detoxified salt is generated by a chemical reaction with the contaminant, the alkalinity of the absorbent is weakened, and the absorbent can be discharged to a sewer pipe. Even if the neutralization is incomplete, the sewer pipe itself is weak in acidity but resistant to alkalinity, so that draining the sewer pipe itself can extend the life of the sewer pipe itself. In this way, it is possible to prevent secondary pollution from occurring due to the deteriorated used solution.

[0024]

As described above, the first aspect of the present invention is a ventilation gas purifying means for purifying a pollutant gas in a tunnel,
A purification facility is provided in the ventilation tunnel, and contaminant gas passing through the ventilation tunnel is allowed to pass through the purification facility, and the pollutant can be absorbed and removed by the gas contaminant absorbent made of an alkaline substance in the purification facility. By virtue of its construction and in accordance with claim 2 of the present invention, a ventilation gas purification facility installed in a ventilation tunnel and used for purifying pollutant gas in the tunnel, wherein the ventilation gas purification facility is alkaline Including a gas pollutant absorbent made of a substance and having a configuration to absorb and remove pollutants by passing pollutant gas passing through the ventilation tunnel through the purification facility, including nitrogen dioxide in the tunnel Global warming substances such as carbon dioxide, substances causing acid rain, and suspended particulate matter can be removed. It is possible to prevent air pollution caused by gas-gas.

In addition, by using an alkaline substance as an absorbent for contaminants, the absorption rate can be increased and the absorption capacity can be increased. Therefore, a conventional ventilation tunnel is used. And the cost of equipment can be reduced.

[0026] Further, the used absorbent can be made harmless by generating salt and can be drained to the sewer pipe, thereby preventing the sewer pipe from deteriorating and preventing the occurrence of secondary pollution. Can be done.

Further, according to the third aspect of the present invention, by adopting a configuration in which the alkaline substance is sodium hydroxide, the above effect can be more effectively exerted.

[Brief description of the drawings]

FIG. 1 schematically illustrates a unit operation of absorbing a ventilation gas in a tunnel according to the present invention.

FIG. 2 is a sectional view illustrating an embodiment of a place where the product of the present invention is installed.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Ventilation tunnel 20 Ventilation opening 30 Ventilation tower 100 Purification equipment

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 4D002 AA08 AA09 AA12 AC10 BA03 CA07 DA02 DA12 GA01 GA02 GB01 HA10 4D020 AA03 AA05 AA07 BA01 BA08 BB01 CA05 CC08 CC20 DA02 DA03 DB01

Claims (3)

[Claims] 1. A ventilation gas purifying means for purifying a pollutant gas in a tunnel, wherein a purifying facility is provided in the ventilation tunnel, and the pollutant gas passing through the ventilation tunnel is passed through the purifying facility. A ventilation gas purifying means for a tunnel, characterized by absorbing and removing pollutants with a gas pollutant absorbent made of an alkaline substance. 2. A ventilation gas purifying facility installed in a ventilation tunnel and used for purifying pollutant gas in the tunnel, wherein the ventilation gas purifying facility includes a gas pollutant absorbent made of an alkaline substance. And a contaminant is absorbed and removed by passing the contaminant gas passing through the ventilation tunnel through the purification facility. 3. The means for purifying ventilation gas of a tunnel according to claim 1, wherein said alkaline substance is sodium hydroxide.