KR102214617B1 - Forest forming method for multipurpose prevent fine dust - Google Patents

Abstract

In a method for forming a disaster prevention forest for fine dust, the present invention relates to a method for forming the multipurpose disaster prevention forest for fine dust, which forms the disaster prevention forest which can reduce fine dust in urban areas, pollution source areas where air pollution sources are installed, and coastal areas, wherein in the disaster prevention forest, trees are planted in a certain pattern for each region, and a multi-purpose disaster prevention and growth control device is installed in the disaster prevention forest at a certain height to control disaster prevention and growth of the planted trees, and a soil purification facility is installed in the disaster prevention forest to supply purified water from contaminated water to the soil of the disaster prevention forest.

Description

Forest forming method for multipurpose prevent fine dust}

The present invention relates to the creation of a fine dust disaster prevention forest, and more particularly, to a method for constructing a multi-purpose fine dust disaster prevention forest by planting trees for fine dust reduction in a certain pattern for each area in order to reduce fine dust.

When looking at the occurrence and movement of fine dust (PM10, PM2.5) on the earth through the Internet site nullschool.net, fine dust is continuously occurring in many regions of the earth, especially in China, Korea, the Middle East, and Africa. In some areas, it is confirmed that dense fine dust is generated throughout the year.

In general, the fine dust concentration is classified into 0~15㎍/㎥ is good, 16~35㎍/㎥ is normal, 36~75㎍/㎥ is bad, and more than 75㎍/㎥ is very bad. When the bad stage is predicted to be maintained for 2 hours, a fine dust advisory is issued to prevent further induction of fine dust and various measures to prevent human damage.In recent years, fine dust advisories have been issued regardless of the season. In particular, emergency reduction measures for fine dust are being issued from time to time in some large cities.

The fine dust emergency reduction measures are issued from 0 to 16:00 on the day of the day, the average concentration of ultra-fine dust is 50㎍/㎥ + the next day, the average concentration of ultrafine dust exceeds 50㎍/㎥, and the ultrafine dust warning or warning is issued at 0~16:00 on the same day + the beginning of the next day. When forecasting the average fine dust concentration exceeding 50㎍/㎥, and when forecasting the average ultrafine dust concentration exceeding 75㎍/㎥ on the next day (very bad level), the operation of vehicles with grade 5 emission is restricted.

As such, fine dust has emerged as one of the most serious problems in the 21st century, and there are reports that about 70,000 people die from fine dust per year among the world's population, and emergency reduction measures are being implemented to reduce the intensifying fine dust. However, the effect is insignificant, and it is difficult to control the fine dust introduced from neighboring countries in particular, and it is not possible to expect all sources of fine dust to disappear within a short period of time, so the fine dust generated or introduced by region is permanently reduced within a short time. There is an urgent need for a technology that can be made.

In response to this demand, technologies that can reduce fine dust using forests are emerging. As a conventional technology related to the creation of fine dust disaster prevention forests, Korean Patent No. 10-1885094 has known a method of creating functional forests having various functions. have.

The prior art is a technology for creating a fine dust reduction forest in a multi-layered structure of privets, hawthorn, hazel, and oaks and beech trees having a medium dust absorption capacity in a multi-layered structure.

However, the conventional fine dust reduction forest is only that the trees are formed in a multi-layered structure according to the ability to absorb fine dust, and the specific composition and adsorption effect of the multi-layered structure are not exhibited. It is expected that the amount of fine dust to be reduced by just doing this is expected to be very small, so it is difficult to implement in general, and the problem of fine dust remains as it is.

The present invention is to solve the above-described demands and problems, planting trees having excellent fine dust reduction ability in a certain area in a certain pattern, installing a plurality of disaster prevention and growth control devices at certain intervals in the tree planting area, and By installing a plurality of soil purification facilities that wash and absorb fine dust from the planting area to collect contaminated water that has fallen to the surface and supply the purified water to the soil, it reduces fine dust, reduces soil pollution, and controls the growth of trees. Its purpose is to provide a method of creating a disaster prevention forest for fine dust that can be carried out.

In the present invention, in the method of creating a disaster prevention forest for fine dust to solve the above problems, a disaster prevention forest capable of reducing fine dust and salt damage in an urban area, a pollution source area in which an air pollution source is installed, and a coastal area is formed, the disaster prevention forest (100) planted trees in a certain pattern for each region, and installed a disaster prevention and growth control device 101 at a certain height in the disaster prevention forest to control multi-purpose disaster prevention and growth of the planted trees, and soil in the disaster prevention forest. It is to provide a multi-purpose fine dust disaster prevention forest creation method in which a purification facility 102 is installed to supply purified water purified from contaminated water in the soil of the disaster prevention forest to the trees.

The tree planting pattern of the disaster prevention forest 100 is divided into an inflow zone 103 considering the wind road, a reduction zone 104 for reducing fine dust, and a blocking zone 105 for blocking fine dust. The width should be 3~5m for silver, 8~10m for reduction zone, and 12~15m for blocking zone.

The trees planted in each of the inflow zone, reduction zone, and blocking zone are planted in 3 rows, and the first row is the order of evergreen trees, deciduous trees, and evergreen trees to create an upper forest by planting large arbors, and the second row is deciduous trees, evergreen trees, and deciduous trees. Small arbors are planted in order to create a middle-tier forest, and shrubs are planted in the order of evergreen trees, deciduous trees, and evergreen trees in the third row to create a lower layer forest.

The trees planted in the urban area are in the order of the inflow zone 103 where fine dust is introduced, the reduction zone 104 for reducing fine dust, and the blocking zone 105 for blocking fine dust in response to the direction of the wind blowing. In the area where there is little wind or less affected by the wind, the inflow zone 103 for fine dust inflow, the reduction zone 104 for reducing fine dust, and the inflow zone 103 for fine dust inflow. , Pollutant source areas are arranged in the order of a blocking zone that blocks fine dust, a reduction zone that reduces fine dust, and an inflow zone where fine dust is introduced, and the coastal area is a blocking zone that blocks fine dust based on the coastal area. , A reduction zone that reduces fine dust, and an inflow zone into which fine dust is introduced.

In the downtown area, the inflow zone 103 is constructed in a single-layer structure mainly for shrubs, and in the reduction zone 104, a multi-layered structure mainly for small arbors is created, and in the blocking zone 105, shrubs, small arbors and large arbors are mixed. Adjust to a multi-layered structure, but in the inflow zone, 90-100% of shrubs and 0-10% of small trees are planted in a single-layer structure, and in the reduction zone, 0-10% shrubs, 70-100% small trees, and large trees 0-20% of trees should be planted in a multi-layered structure, and trees of 0-10% shrubs, 20-30% small trees, and 70-100% large trees should be planted in a multi-layered structure in the blocking zone.

The pollution source area and the coastal area are constructed in a single-layer structure centered on shrubs in the inflow zone 103 as in the urban area, and in the reduction zone 104, a multi-layered structure centering on small arbors is formed, and in the blocking zone 105, shrubs It is constructed in a multi-layered structure that is a mixture of trees, small trees, and large trees, but in the inflow zone of the pollution source area and the coastal area, 90-100% of shrubs and 0-10% of small trees are planted in a single-layer structure. Trees of 0-10% shrubs, 70-100% small trees, and 0-20% large trees are planted in a multi-layered structure, and 0-10% shrubs, 20-30% small trees, and 70-large trees in the blocking zone. 100% of trees should be planted in a multi-layered structure.

The disaster prevention and growth control device 101 is formed to include a structure capable of adjusting the height according to the growth of trees, and a sprinkler 101a for high-pressure spraying is installed at the upper end, and a plurality of spray nozzles for spraying mist on the bottom thereof (101b) is installed, and a lighting device (101c) is installed on the spray nozzle formation part, spaced apart at regular intervals in the disaster prevention forest formed in a certain pattern, and at a place higher than the maximum height of the trees planted in the disaster prevention forest. Make sure that the spray is sprayed and the lighting can be illuminated.

By connecting the water collecting and purification tank 102a and the water purification tank 102b equipped with a filtration device to purify contaminated water, and connecting the water sercor rope 102c to the water purification tank, the water stored in the purification tank is buried at a certain depth in the soil. The water is supplied to the soil through the core rope (102c).

When the temperature is above a certain temperature, the sprinkler 101a and the spray nozzle 101b are operated to spray water to reduce the ambient temperature, and water is supplied to the trees through the sprinkler 101a to the dryer, Or, by spraying an insecticidal disinfectant, it performs disaster prevention and tree growth control, and a water cer core buried in the ground by receiving and purifying contaminated water from the disaster prevention forest through the collection and purification tank and water purification tank of the soil purification facility 102. Water purified through the rope 102c is supplied to the soil to purify the soil while supplying water to the trees planted in the ground so that the trees can grow.

The present invention moistens the trees of the disaster prevention forest while lowering the fine dust scattered in the air to the ground by operating a sprinkler and a spray nozzle when the concentration of fine dust in an urban area, a pollution-prone area, and a coastal area is above a certain level, and attaches it to the wet leaves. The effect of reducing fine dust by washing away the fine dust is generated.

In addition, when the temperature is above a certain temperature, the sprinkler and the spray nozzle are operated to spray water to reduce the ambient temperature, and the wind path opens to a lower temperature than the surrounding, improving the reduction effect, supplying water to the trees of the dryer, and reducing salt damage. It prevents, sprays nutrients or pesticides and disinfectants on trees, prevents fire and controls the growth of trees.

In addition, the contaminated water from the contaminated surface of the disaster prevention forest is collected and purified, and the purified water is supplied to the soil through a water sero core rope to purify the soil, while supplying water to the planted trees, resulting in a healthy growth of trees. do.

1 is a diagram conceptually showing a fine dust disaster prevention forest according to the present invention.
2 is a view conceptually showing the fine dust reduction area and trees planted in the disaster prevention forest according to the present invention.
3 is a view showing a fine dust reduction area formed in a pollution source area and a coastal area of a disaster prevention forest according to the present invention.
4 is a view showing a cross-section in the width direction of a disaster prevention forest in which a fine dust reduction area is formed according to the present invention.
5 is a diagram conceptually showing a soil purification facility constructed in a disaster prevention forest according to the present invention.

The present invention will be clarified by the preferred embodiments described below, but this embodiment is only one example for describing the present invention, and is not intended to limit the scope of the present invention, and is equivalent to the embodiment. It should be understood as including all of the techniques.

The method of creating a multi-purpose fine dust disaster prevention forest according to the present invention reduces fine dust in urban areas, pollutant areas where air pollutant generating facilities are installed, coastal areas, and other disaster prevention and tree growth control functions to solve social problems caused by fine dust. To create a disaster prevention forest in a certain form that can carry out activities.

The disaster prevention forest 100 is formed by planting trees having a fine dust reduction effect in a certain pattern for each region, but as shown in FIG. 1, disaster prevention and a pole of a certain height to control the disaster prevention and growth of the planted trees. The disaster prevention and growth control device 101 and the soil purification facility 102 for the soil purification of the disaster prevention forest using a disaster prevention forest system to form an integral form to be formed.

As shown in FIG. 1, the tree planting pattern of the disaster prevention forest 100 includes an inflow zone 103 corresponding to the wind direction at the entrance of the wind road, a reduction zone 104 for reducing fine dust, and a blocking zone for blocking fine dust ( 105) Divide into areas and make the forests of each area continue for a certain length in the longitudinal direction, but the inflow zone is 3~5m, the reduction zone is 8-10m, and the blocking zone is 12~15m in width. Make sure that the overall width of the dust area is at least 23m and at most 30m.

If the entire width of the fine dust area formed with the predetermined length is less than 23m, the time for fine dust to pass through the disaster prevention forest is short, so that the fine dust does not adsorb to the trees in the disaster prevention forest, but passes through it and reaches the living area. However, if it exceeds 30m, the fine dust reduction effect increases, but since the cost of creating a disaster prevention forest is excessive and it is difficult to prepare a disaster prevention forest site, it is desirable to make the overall width from at least 23m to a maximum of 30m. Do.

Disaster prevention and growth control device 101 and soil purification facility 102 disposed with respect to the entire width of the fine dust area are disaster prevention and growth control devices based on an area of 900m ² with a maximum width of 30m × maximum length of 30m of fine dust 4 The dogs are installed at equal intervals, and 9 soil purification facilities are installed at equal intervals.

For example, four disaster prevention and growth control devices 101 are installed at intervals of 10 m from the horizontal and vertical ends of the reference plane based on an area of 900 m ^{2 with} a maximum width of 30 m and a length of 30 m in the entire fine dust area, and the soil 9 purification facilities 102 are installed at equal intervals so that one is disposed in an area of 100m ² .

Trees planted in each of the inflow zone, reduction zone, and blocking zone are planted in three rows, as shown in FIG. 2, but one row (103a, 104a, 105a) of each region is evergreen (S), deciduous tree (N) , And evergreen trees (S) in the order of large arbors to create upper forests, and in the second row (103b, 104b, 105b) of each area, small arbors are planted in the order of deciduous trees, evergreen trees, and deciduous trees to create a middle layer forest. In the third row (103c, 104c, 105c) of the area, shrubs are planted in the order of evergreen trees, deciduous trees, and evergreen trees to create lower forests.

The trees planted in the 1st, 2nd, and 3rd rows can be planted either single or group, and the evergreen trees to be planted are selected as pine, pine, or juniper with rough bark and extract, and ground cover plants are grasses, ground cover trees, etc. It is desirable to plant plants that can cover the entire back ground.

As shown in FIG. 1, the trees planted in the urban area include an inflow zone 103 into which fine dust is introduced in response to the wind direction in a windy area, a reduction zone 104 for reducing fine dust, and a fine dust. Blocking zones 105 to block are arranged in the order, and in the areas where there is little wind or less influenced by wind, the inflow zone 103 into which fine dust is introduced, the reduction zone 104 to reduce fine dust, and the fine dust are It is formed by placing it as an inflow zone 103.

In addition, as shown in FIG. 3, the pollutant source area is arranged in the order of a blocking zone that blocks fine dust, a reduction zone that reduces fine dust, and an inflow zone into which fine dust is introduced. Reduce the inflow and create a coastal area in order to reduce fine dust and salt damage by placing in the order of a blocking zone that blocks fine dust, a reduction zone that reduces fine dust, and an inflow zone where fine dust is introduced. .

In the inflow zone 103 of the downtown area, 90-100% of shrubs and 0-10% of small arbors are planted in a single layer structure, and in the reduction zone 104, 0-10% of shrubs and 70-100% of small arbors , Trees of 0-20% of large trees are planted in a multi-layered structure, and trees of 0-10% of shrubs, 20-30% of small trees, and 70-100% of large trees are planted in a multi-layered structure in the blocking zone (105). To create. Here, shrub refers to short trees and arboreal refers to trees that grow more than 8m tall.

The disaster prevention forest pattern of the pollution source area and the coastal area is constructed in a single-layer structure centered on shrubs in the inflow zone 103, as in the urban area, and in the reduction zone 104, a double-layer structure centered on small arbors is created, and the blocking zone ( In 105), a multi-layered structure in which shrubs, small trees, and large trees are mixed.

More specifically, trees of 90-100% shrubs and 0-10% small arbors are planted in a single-layer structure in the inflow zone 103 of the pollutant source area and the coastal area, and 0-10% shrubs in the reduction zone 104 , 70~100% of small trees and 0~20% of large trees are planted in a multi-layered structure, and in the blocking zone (105), 0-10% of shrubs, 20-30% of small trees, 70-100% of large trees The trees are planted in a multi-layered structure.

And the planting density for the tree pattern in the urban area, pollution-prone area, and coastal area is 20 to 40% for the fine dust inflow zone, 40 to 60% for the fine dust reduction zone, and 80 to 100% for the fine dust blocking zone. Make up.

As shown in FIG. 4, the disaster prevention and growth control device 101 forms a sprinkler 101a for high pressure spraying at the upper end, and forms a plurality of spray nozzles 101b for spraying mist at the lower portion thereof, and the A lighting device (101c) consisting of an LED lamp or a laser beam device is installed at the spray nozzle formation part, but sprayed at a place higher than the maximum growth height of the trees planted in the disaster prevention forest by spacing them at regular intervals in the disaster prevention forest formed in a certain pattern. Allow spraying to occur and illuminate.

The soil purification facility 102 connects a collection and purification tank 102a and a water purification tank 102b equipped with a filtering device for purifying contaminated water as shown in FIGS. 4 and 5 and combines a plurality of core ropes with the water purification tank. A watersercore rope (102c, Watersercorerope) formed in a predetermined length is connected and buried at a predetermined depth in the soil, and water stored in the water purification tank is supplied to the soil through the watersercorerope.

The fine dust introduced or introduced into the downtown area, the pollution-prone area, and the coastal area is adsorbed by the trees of the disaster prevention forest, and when the fine dust concentration is higher than a certain value, the sprinkler 101a and the spray nozzle 101b are When the temperature is lowered, the wind path is opened, fine dust is effectively introduced into the inflow zone, and the fine dust flowing into the reduction forest space and fine dust adsorbed on the trees are washed and settled, and the continuous fine dust is adsorbed and washed again on the cleaned trees. By repeating sedimentation, fine dust is not scattered and the effect is reduced in the area.

In addition, when the temperature is above a certain temperature, the sprinkler and the spray nozzle are operated to spray water to reduce the ambient temperature to form a wind path and to prevent thermal diseases, and to supply water to the trees through a sprinkler on the trees of the dryer. By spraying a nutrient or an insecticidal disinfectant on the surface, the effect of preventing fire and controlling tree growth occurs.

In addition, the effect of collecting and purifying contaminated water from the ground surface contaminated in the disaster prevention forest and supplying the purified water to the soil through a water sero core rope to purify the soil while supplying water to the trees planted in the ground to grow trees steadily. Occurs.

100: disaster prevention forest 101: disaster prevention and growth control device
102: soil purification facility 103: inflow zone
104: reduction zone 105: blocking zone
101a: sprinkler 101b: spray nozzle
101c: lighting device 102a: collection and purification tank
102b: water purification tank 102c: water seo core rope

Claims (8)

Create disaster prevention forests that can reduce fine dust in urban areas, pollution source areas where air pollution sources are installed, and coastal areas,
The disaster prevention forest 100 planted trees in a predetermined pattern for each region,
Disaster prevention and growth control device 101 is installed at a certain height in the disaster prevention forest to control multipurpose disaster prevention and growth of planted trees,
In the method of creating a fine dust disaster prevention forest in which a soil purification facility 102 is installed in the disaster prevention forest to supply purified water obtained by purifying the contaminated water to the trees,
The tree planting pattern of the disaster prevention forest is divided into an inflow zone 103 considering the wind road, a reduction zone 104 for reducing fine dust, and a blocking zone 105 for blocking fine dust.
The inflow zone is 3~5m, the reduction zone is 8~10m, and the blocking zone has a width of 12~15m, so that the total width of the fine dust area is from 23m to 30m,
The trees planted in each of the inflow zone, reduction zone and blocking zone are planted in three rows,
In the first row, large arbors are planted in the order of evergreen trees, deciduous trees, and evergreen trees to create an upper forest.
In the second row, small arbors are planted in the order of deciduous trees, evergreen trees, and deciduous trees to create a middle-tier forest.
In row 3, shrubs are planted in the order of evergreen trees, deciduous trees, and evergreen trees to create a lower forest.
The disaster prevention and growth control device 101 and the soil purification facility 102 are based on an area of 900 m ^{2 with} a maximum width of 30 m and a length of 30 m in the entire fine dust area. Install at intervals of 10m from the horizontal and vertical ends, respectively,
The disaster prevention and growth control device 101 forms a sprinkler 101a for high-pressure spraying at the upper end, and forms a plurality of spray nozzles 101b for spraying mist at the lower portion thereof, and an LED lamp or a An illumination device 101c made of a laser beam device is installed,
The soil purification facility 102 connects the water collecting and purification tank 102a and the water purification tank 102b, in which a filtration device for purifying contaminated water, is installed, and combines a plurality of core ropes with the water purification tank to form a water circumferential rope having a predetermined length. A method for creating a multipurpose fine dust disaster prevention forest, characterized in that the water stored in the water tank is supplied to the soil through the connection (102c) and buried at a certain depth in the soil. delete delete The method of claim 1,
The trees planted in the urban area are in the order of the inflow zone 103 where fine dust is introduced, the reduction zone 104 for reducing fine dust, and the blocking zone 105 for blocking fine dust in response to the direction of the wind blowing. In the areas where there is little wind or less influenced by the wind, the inflow zone 103 where fine dust is introduced, the reduction zone 104 that reduces fine dust, and the inflow zone 103 where the fine dust is introduced are arranged in this order. And
Pollution source areas are arranged in the order of a blocking zone that blocks fine dust, a reduction zone that reduces fine dust, and an inflow zone where fine dust is introduced.
Coastal areas are created by placing them in the order of a blocking zone that blocks fine dust, a reduction zone that reduces fine dust, and an inflow zone where fine dust is introduced.
In the inflow zone of the downtown area, trees of 90-100% shrubs and 0-10% small trees are planted in a single layer structure, and 0-10% shrubs, 70-100% small trees, and 0-20 small trees in the reduction zone. % Of trees are planted in a multi-layered structure, and trees of 0-10% shrubs, 20-30% small trees, and 70-100% large trees are planted in a multi-layered structure in the blocking zone.
In the inflow zone of the pollutant source area and coastal area, trees of 90-100% shrubs and 0-10% small trees are planted in a single layer structure, and in the reduction zone, 0-10% shrubs, 70-100% small trees, and bridges Trees of 0-20% of trees are planted in a multi-layered structure, and trees of 0-10% of shrubs, 20-30% of small trees, and 70-100% of large trees are planted in a multi-layered structure. How to create a multi-purpose fine dust disaster prevention forest. delete delete delete delete

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