KR20100105029A - Infiltration system with riverbed filtration - Google Patents

Abstract

PURPOSE: A catchment system using river bed filtration is provided to maintain same water quality with conventional horizontal water collecting pipe and to fast reach a horizontal water collecting pipe. CONSTITUTION: A catchment system comprises: a horizontal water collecting pipe(220) which is mounted horizontally to the bottom in a predetermined depth; and a vertical water collecting pipe(210) which is connected to the horizontal water collecting pipe. The horizontal water collecting pipe comprises a ground layer structure with a sand layer(230) and gravel layer(240). The depth of alluvium from the bottom is 3m-5m.

Description

Infiltration System with Riverbed Filtration

The present invention relates to a water collecting system using the river filtration method, and in particular, by installing the horizontal collection pipe at the optimum position by determining the position and the optimum pipe diameter and length of the horizontal collection pipe installed on the river bottom by measuring the soil state of the river bottom The present invention relates to a water collecting system using a river bed filtering method that can increase the amount of water collected.

There are many ways to obtain water by filtering and collecting river water. Among them, riverside filtration and riverbed filtration are known techniques.

In the river filtration system, the horizontal collection pipe should be installed at a depth of 40m from the bottom. The reason is that in the case of river filtration, the horizontal collection pipe should be constructed as deep as possible because the water quality is more important than the water intake.

Therefore, when constructing the horizontal collection pipe at the depth of 35m ~ 40m, there are problems such as worker's safety, workability, difficulty in maintenance, excessive construction cost, and the filtered water from the deep place (35m ~ 40m) is eluted much There is also a problem that must be dealt with.

Another method, the riverbed filtration method, has a deeper catchment depth than the riverside filtration method (approximately 15m to 25m), and the horizontal collection pipe should be constructed between 6m and 12m. The reason is that 6m ~ 12m is constructed to filter by sedimentary layer (sand, gravel layer). However, because the soil conditions in the riverbed are often not good, the construction of the horizontal collection pipe should be carried out within 12m to 6m or more. Therefore, like riverside filtration method, there are many difficulties in stability, constructability, and maintenance, and there is a possibility of dissolution of iron and manganese.

1A and 1B show a structure in which the collecting wells are collected using a collecting pipe from aquifers in which sand, gravel, and the like of the river bottom are deposited. That is, as shown in Fig. 1, the bottom of the river is excavated to install the water collecting pipe 2 in which the water collecting hole 3 is inclined, and the end of the water collecting well is installed deeper than the depth of the water collecting pipe 2 at the side of the lower bed. It connects to (1) and forms a filter gravel (4) as gravel above the collection pipe (2).

Then, the water flowing through the bottom of the river or groundwater gathers into the collection pipe 2 through the gravel filter layer 4 and draws out water through the collection well 1. By using these collection wells, the collection system is used to improve the water quality of the stream by using the physical, chemical and biological characteristics of the riverbed and the inflow of the groundwater, or to secure river maintenance water and indirect intake.

However, such a conventional water collecting system has various problems.

First, the location of the collection pipe is important because the amount of water that can be collected depends on the location of the collection pipe on the bottom of the river, which depends on the soil environment under the river floor. It is not easy to determine the location.

That is, in the existing water collecting system, the horizontal water collecting pipe is generally installed at the position where sand, gravel, and wind rocks are formed between about 6m and 10m from the bottom of the river. The reason why the installation depth of the horizontal collection pipe is installed at a depth of about 6 m or more is to collect the river water having high quality water since the river water is naturally purified while passing through the alluvial layer.

However, there is a problem that the construction cost greatly increases as the horizontal collection pipe is buried deeply, even if a problem occurs after the installation once, the maintenance of the equipment is not easy, and the amount of river water collected is also small.

Therefore, the development of a method for maximizing the amount of water to be collected while maintaining a constant water quality of the collected river water is required, and for this purpose, the location of the horizontal collection pipe should be appropriately determined.

The technical problem to be achieved by the present invention is to provide a water collecting system using a river bed filtering method having a condition of the horizontal collecting pipe embedded position that can stably increase the amount of water collection while maintaining a certain level of water quality.

A water collecting system using a river filtration method according to an embodiment of the present invention for achieving the above technical problem is a vertical collecting well connected to the horizontal collecting pipe and the horizontal collecting pipe installed horizontally with a constant depth to excavate the bottom of the river The present invention relates to a water collecting system using a river filtration method for collecting maintenance streams and indirect intake by collecting the filtered river water at the bottom of the alluvial aquifer in the riverbed.

The horizontal collecting pipe has a stratified structure consisting of a sand layer and a gravel layer, and a travel time indicating a time at which the river water reaches from the lower bed to the horizontal collecting pipe has a depth of the alluvial layer calculated from the lower bed within 3 m to 5 m. Buried in the area within two days.

The hydraulic conductivity of the alluvial layer in which the horizontal collecting pipe is embedded is between 10-2 cm / sec and 10-3 cm / sec. In the alluvial layer, the sand layer is buried from the bottom in the thickness of 1.5m ~ 3m and the gravel layer is buried in the thickness of 1.5m ~ 2m below the sand layer. The particle size distribution of the sand in the sand layer is between 3 mm and 5 mm, and the particle size distribution of the gravel in the gravel layer is between 20 mm and 50 mm.

As described above, the water collecting system using the riverbed filtering method according to the embodiment of the present invention determines the optimal horizontal collection pipe embedding position in consideration of the soil environment, thereby achieving the same level of water quality as in the case of the conventional water collecting using the horizontal collecting pipe. While maintaining the river water to reach the horizontal collection pipe can be about five times faster, and thus the amount of water collection can be increased.

In addition, since the buried depth is lower than the existing water collecting system, there is a great advantage in the stability, workability, maintenance and maintenance of the facility.

DETAILED DESCRIPTION In order to fully understand the present invention, the operational advantages of the present invention, and the objects achieved by the practice of the present invention, reference should be made to the accompanying drawings which illustrate preferred embodiments of the present invention and the contents described in the drawings.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Like reference numerals in the drawings denote like elements.

2 is a view for explaining the structure of the water collecting system using the bed filter method according to an embodiment of the present invention.

Referring to Figure 2, the water collecting system 200 using the river bed filtering method according to an embodiment of the present invention is a horizontal collecting pipe 220 and horizontal collecting pipe 220 installed horizontally with a constant depth by excavating the bottom of the river ) Is a system that collects the filtered river water of the bottom of the river in the alluvial aquifer of the riverbed by using a vertical collection well 210 installed next to the river to secure maintenance water and indirect intake.

In the case of the existing water collecting system using the river bed filtering method, it is installed at the depth of about 6m ~ 12m in the riverbed as described above, and when the horizontal collection pipe is constructed at this depth, the worker's stability problem, difficulty of construction, maintenance and repair Problems such as difficulties exist. Since the depth is deep, there is an advantage that the water quality of the collected water is improved by increasing the filtration rate by the alluvial aquifer, but there is still room for iron manganese in the filtered water.

Therefore, in the embodiment of the present invention, while maintaining the water quality of the river water being collected in the horizontal collection pipe 220 and the water quality of the river water collected in the conventional manner without a significant difference, while increasing the amount of collection, the stability and maintenance of work Determine the proper installation position of the horizontal collection pipe for easier management from the side.

In other words, it has a filtration function for river water while satisfying the minimum aerobic conditions, but the depth of the river bed is not deep, so the travel time indicating the time at which the river water reaches the horizontal collecting pipe 220 from the river bed is short. The installation position of the water collecting pipe is judged by modeling the river bed filtering method. Shorter travel time increases the amount of water collected using the horizontal collection pipe 220.

First, the modeling method selects a conceptual model for the purpose of finding the proper position of the horizontal collecting pipe in the collecting system using the river bed filtering method. The conceptual model is a task of virtually determining which river to install the collection system.

After selecting a conceptual model, design the conceptual model by selecting the computer code. Then, the modeled design is executed while changing input variables such as hydraulic conductivity, permeability coefficient, specific output rate, and storage coefficient. It is possible to predict the flow rate collected by the horizontal collection pipe by execution, and to derive the number of horizontal collection pipes, the diameter, and the factors necessary for the design of the horizontal collection pipe.

As a result of experimenting on the proper position of the horizontal collection pipe of the collection system by modeling, the horizontal collection pipe 220 according to the embodiment of the present invention is composed of a sand layer 230 and a gravel layer 240, the bottom bed ( The depth of the alluvial layer calculated from RB) is set within 3 m-5 m, and is installed in the area | region where the travel time which shows the time which the river water reaches from the riverbed RB to the horizontal collection pipe 220 is within 2 days.

In addition, the hydraulic conductivity of the alluvial layer in this region should satisfy 10-2 cm / sec to 10-3 cm / sec.

Compared to the existing depth of the horizontal collection pipe is 6m or more, it can be seen that the horizontal collecting pipe 220 of the water collecting system 200 of the present invention is embedded at a very shallow depth.

The ground layer from the lower bed (RB) to the position where the horizontal collection pipe 220 is embedded is composed of a sand layer 230 and a gravel layer 240, and the sand layer 230 constituting them has a thickness of 1.5 m to 3 m. ) And the gravel layer 240 is buried in a thickness of 1.5m ~ 2m under the sand layer 230.

The particle size distribution of the sand S constituting the sand layer 230 is between 3 mm and 5 mm, and the particle size distribution of the gravel G constituting the gravel layer 240 is between 20 mm and 50 mm.

If the subsurface portion below the RB is satisfied with the above conditions, it is possible to increase the amount of water collected from the existing water collecting system without having a large difference from the water quality obtained from the existing water collecting system.

That is, since the horizontal collection pipe 220 is buried at a lower depth than the existing water collecting system, the travel time of the river water is shortened to within 2 days, so that a stable quantity can be secured. If the particle diameter distribution of the sand (S) and the particle size distribution of the gravel (G) while maintaining the above-mentioned value while consisting of the 230 and the gravel layer 240, the filtration efficiency of the river water also does not fall compared to the existing water collection system.

If the conditions of the riverbed in a certain region do not satisfy the conditions of the water collecting system 200 according to the embodiment of the present invention, sand (S) gravel (G) using the cut-off method according to the embodiment of the present invention. The stream water can be filtered by improving so that a condition may be satisfy | filled.

3 is a view illustrating data comparing the filtered water quality of the water collecting system according to an embodiment of the present invention with the existing water collecting system.

Referring to Figure 3, when the water quality of the river water is the same conditions (BOD (biological oxygen demand): 9.2mg / L, SS (suspended solid, suspended matter): 7.5mg / L) installed horizontal collecting pipe in the lower bed 10m To compare the water quality of the existing water collecting system (case 1) and the bottom water filtration of the water collecting system (case 2) according to an embodiment of the present invention to install a horizontal collecting pipe in the lower bed 5m.

As a result, the existing water collection system has lowered BOD from 9.2mg / L to 2.4mg / L (73.9% removal) and suspended solids from 7.5mg / L to 1.2mg / L (84% removal).

In the water collecting system according to the embodiment of the present invention, the BOD was lowered from 9.2mg / L to 3.1mg / L (66.3% removal rate), and the suspended solids was lowered from 7.5mg / L to 1.4mg / L (81.3% removal rate).

BOD removal efficiency is higher than 81.3% of the water collecting system according to the embodiment of the present invention because the existing water collecting system is deeply buried as 84%, but the water collecting system according to the embodiment of the present invention is more than 80%. It can be seen that, the suspended matter removal efficiency can be seen that the existing water collecting system (case 1) and the water collecting system (case 2) according to an embodiment of the present invention does not show a large difference.

Accordingly, the water collecting system 200 according to the embodiment of the present invention obtains advantages such as the installation cost, workability, safety, and ease of maintenance and maintenance of the horizontal water collecting pipe by making the depth of embedding shallower than the existing water collecting system. It is possible to maintain a constant filtered water quality.

As described above, optimal embodiments have been disclosed in the drawings and the specification. Although specific terms have been used herein, they are used only for the purpose of describing the present invention and are not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

BRIEF DESCRIPTION OF THE DRAWINGS In order to better understand the drawings cited in the detailed description of the invention, a brief description of each drawing is provided.

1A and 1B illustrate the structure of a conventional water collecting system.

2 is a view for explaining the structure of the water collecting system using the bed filter method according to an embodiment of the present invention.

3 is a view illustrating data comparing the filtered water quality of the water collecting system according to an embodiment of the present invention with the existing water collecting system.

Claims (4)

Excavate the bottom of the river and collect the filtered river water at the bottom of the alluvial aquifer in the alluvial aquifer using the horizontal collecting pipe installed horizontally with the floor to a certain depth and the vertical collecting well connected to the horizontal collecting pipe. In the collection system using the river bed filtering method to secure the The horizontal collecting pipe, The strata structure is composed of sand and gravel layers, and the area of alluvial layers calculated from the riverbed is within 3m to 5m and the travel time representing the time when the stream reaches from the riverbed to the horizontal collecting pipe is within 2 days. A water collecting system using the river bed filtering method, which is buried. The method of claim 1, The hydraulic conductivity of the alluvial layer in which the horizontal collection pipe is embedded is between 10-2 cm / sec and 10-3 cm / sec. The method of claim 1, wherein the alluvial layer, The sand layer is buried from the bottom to the thickness of 1.5m ~ 3m and the gravel layer is buried under the sand layer with a thickness of 1.5m ~ 2m, collecting system using the bed-filtration method. The method of claim 1, The particle size distribution of the sand of the sand layer is between 3mm ~ 5mm, the particle size distribution of the gravel of the gravel layer is between 20mm ~ 50mm collection system using the river bed filtering method.

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