Simple method for determining breakthrough time of anti-seepage liners in landfill

Abstract

A method for determining breakthrough time of anti-seepage liners in a landfill, includes (a) detecting a leachate sample of the landfill to determine the initial concentration C0 of pollutants, and monitoring the leachate head h of the landfill; (b) determining the pollution-causing concentration CA of the pollutants according to functional orientation of local groundwater of the landfill; (c) determining, related parameters of the anti-seepage liners including the thickness z of the anti-seepage liners, the permeability coefficient k of the liners, and the porosity n of the material of the liners, and determining the related parameters of pollutant migration including the effective diffusion coefficient Da* and the mechanical dispersion coefficient Dm of the pollutants in the anti-seepage liners, and the adsorption retardation factor Rd of the anti-seepage liners on the pollutants; and (d) calculating the breakthrough time t of the anti-seepage liners according to a formula,

Description

CROSS REFERENCE TO RELATED APPLICATIONS

This application is national phase entry of international application PCT/CN2017/088034, filed on Jun. 13, 2017, which claims priority to Chinese Patent Application No. CN 201611150922.6, filed on Dec. 14, 2016, which is hereby incorporated by reference in its entirety.

TECHNICAL FIELD

Belonging to the field of anti-seepage in a landfill, the present invention relates to a method for calculating breakthrough time of anti-seepage liners, and in particular, to a simple method for determining breakthrough time of anti-seepage liners in a landfill.

BACKGROUND

Currently, the global annual production of municipal solid waste amounts to about 10 billion tons, among which the annual production of municipal solid waste in China amounts to 250 million tons and rapidly grows at a rate of 8% to 15% each year; and landfill is still a major method for disposal of municipal solid waste in most of the countries including China. There are 100,000 and 150,000 landfills in the U.S. and Europe respectively, and China has more than 20,000 landfills. The existence of a large number of landfills brings a huge risk of environmental disasters, among which groundwater pollution caused by leakage and breakthrough of landfill leachate from anti-seepage liners is one of the most common pollution disasters.

The breakthrough of leachate from anti-seepage liners actually refers to seepage of pollutants in the leachate from the bottom of the anti-seepage liners after a long time of migration and dispersion with permeation of the leachate. When the seepage concentration of the pollutants gradually increases and reaches the harm-causing or pollution-causing concentration, groundwater and surrounding environment will be polluted. Therefore, breakthrough time of anti-seepage liners in a landfill is crucial in environmental safety assessment of the landfill. However, a landfill system is rather complex, concerning factors such as the thickness of anti-seepage liners, the permeability coefficient of the liners, the leachate head of the landfill, and the porosity of the material of the liners, which bring a heavy load to design, management, subsequent repairing and other work of the landfill.

SUMMARY

An objective of the present invention is to eliminate the defects in the prior art and provide a simple method for determining breakthrough time of anti-seepage liners in a landfill.

To achieve the above objective, the technical solution adopted by the present invention is: a simple method for determining breakthrough time of anti-seepage liners in a landfill. The method includes the following steps:

(a) detecting a leachate sample of the landfill to determine the initial concentration C₀ (mg/L) of typical pollutants, and monitoring the leachate head h (m) of the landfill;

(b) determining the harm-causing or pollution-causing concentration C_A (mg/L) of the pollutants according to functional orientation of local groundwater of the landfill;

(c) determining, through researches, related parameters of the anti-seepage liners and related parameters of pollutant migration, the related parameters of the anti-seepage liners including the thickness z (m) of the anti-seepage liners, the permeability coefficient k (m/s) of the liners, and the porosity n (−) of the material of the liners; and the related parameters of pollutant migration including the effective diffusion coefficient D_a* (m²/s) and the mechanical dispersion coefficient D_m (m²/s) of the pollutants in the anti-seepage liners, and the adsorption retardation factor R_d (−) of the anti-seepage liners on the pollutants; and

(d) calculating the breakthrough time t of the anti-seepage liners according to a formula (1):

$\begin{array}{cc}t=\frac{{\mathrm{nR}}_d{z}^2}{\left(h+z\right)k}\left(\left({a\left(\frac{C_0}{C_A}\right)}^b\right)\ln \left(\frac{\left(h+z\right)k}{n\left(D_a^{*}+D_m\right)}\right)+c\right),& \left(1\right)\end{array}$

where a, b, c are state coefficients independently.

Preferably, in Step (a), the initial concentration C₀ (mg/L) of the typical pollutants is detected according to the Chinese National Standard GB 5750-2006: Standard examination methods for drinking water.

Preferably, in Step (a), the leachate head h (m) of the landfill is monitored according to the Chinese Industry Standard CJJ 176-2012: Technical code for geotechnical engineering of municipal solid waste sanitary landfill.

Preferably, in Step (b), the harm-causing or pollution-causing concentration C_A (mg/L) of the pollutants is the limiting concentration of the pollutants in different quality classifications that are specified in GB/T 14848-93: Quality standard for ground water or GB 3838-2002: Environmental quality standards for surface water.

Preferably, a is 0.2899, b is −0.1343, and c is −0.01094.

By using the above technical solution, the present invention has the following advantages as compared with the prior art. According to the simple method for determining breakthrough time of anti-seepage liners in a landfill provided by the present invention, the breakthrough time is calculated by using the formula (1) after parameters such as the initial concentration C₀ of the pollutants and the harm-causing or pollution-causing concentration C_A of the pollutants are determined, which satisfies the requirements on the accuracy of engineering design. Moreover, the method does not need a great deal of on-site monitoring or complex calculation, has a low cost, is simple and easy to carry out, and is quick and effective. The method can be widely applied to design, management, subsequent repairing and other work of anti-seepage liners in a landfill.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a comparison diagram of breakthrough time of anti-seepage liners in a landfill according to the present invention against calculated values obtained by using an analytical solution; and

FIG. 2 is a comparison diagram of breakthrough time of 2−m compacted clay anti-seepage liners according to the present invention against finite-element calculated values.

DETAILED DESCRIPTION

Preferred embodiments of the present invention are described in detail below.

A simple method for determining breakthrough time of anti-seepage liners in a landfill provided by the present invention includes the following steps:

(a) detecting a leachate sample of the landfill to determine the initial concentration C₀ (mg/L) of typical pollutants, and monitoring the leachate head h (m) of the landfill, where the initial concentration C₀ of the typical pollutants is detected according to the Chinese National Standard GB 5750-2006: Standard examination methods for drinking water; the leachate head h of the landfill is monitored according to the Chinese Industry Standard CH 176-2012: Technical code for geotechnical engineering of municipal solid waste sanitary landfill;

(b) determining the harm-causing or pollution-causing concentration C_A (mg/L) of the pollutants according to functional orientation of local groundwater of the landfill, where the harm-causing or pollution-causing concentration C_A of the pollutants is the limiting concentration of the pollutants in different quality classifications that are specified in GB/T 14848-93: Quality standard for ground water or GB 3838-2002: Environmental quality standards for surface water;

(c) determining, through researches, related parameters of the anti-seepage liners and related parameters of pollutant migration, the related parameters of the anti-seepage liners including the thickness z (m) of the anti-seepage liners, the permeability coefficient k (m/s) of the liners, and the porosity n (−) of the material of the liners; and the related parameters of pollutant migration including the effective diffusion coefficient D_a* (m²/s) and the mechanical dispersion coefficient D_m (m²/s) of the pollutants in the anti-seepage liners, and the adsorption retardation factor R_d (−) of the anti-seepage liners on the pollutants; and

(d) calculating the breakthrough time t of the anti-seepage liners according to a formula (1):

$\begin{array}{cc}t=\frac{{\mathrm{nR}}_d{z}^2}{\left(h+z\right)k}\left(\left({a\left(\frac{C_0}{C_A}\right)}^b\right)\ln \left(\frac{\left(h+z\right)k}{n\left(D_a^{*}+D_m\right)}\right)+c\right),& \left(1\right)\end{array}$

where a, b, c are state coefficients independently, a is 0.2899, b is −0.1343, and c is −0.01094.

For points in FIG. 1, x-coordinates represent breakthrough time of anti-seepage liners in different working conditions that is obtained by using a conventional analytical solution, and y-coordinates represent breakthrough time of anti-seepage liners in corresponding working conditions that is calculated by using the formula (1). The points are basically close to the line y=x, and the correlation coefficient R² of a fitting formula reaches 0.997, which indicates that the calculation accuracy of the formula (1) is still very high.

In addition, taking 2−m compacted clay anti-seepage liners that are commonly used in a landfill for example, the breakthrough time of organic matters (COD) in different leachate head conditions that is calculated by using the present invention is compared with the breakthrough time obtained by finite-element calculation.

TABLE 1
Parameters related to compacted clay anti-seepage liners in a
landfill and parameters related to pollutant migration
Leachate head h (m)	0.3	2	5	8	10
The thickness z (m) of liners	2
The permeability coefficient k (m/s)	1 × 10−9
of liners
Porosity (−)	0.54
Pollutants	COD
Diffusion coefficient Da* (m2/s)	2.5 × 10−10
Dispersity α (m)*	0.1
Retardation factor (−)	3.3
*Note: the dispersity α is used to calculate the dispersion coefficient Dm (m2/s):

$\begin{array}{cc}{D}_m=\alpha ·v_A=\frac{\left(h+z\right)k\alpha }{\mathrm{nz}},& \left(2\right)\end{array}$

where v_A is average velocity (m/s).

For points in FIG. 2, horizontal coordinates represent leachate heads, vertical coordinates represent breakthrough time of 2−m compacted clay liners, the breakthrough time calculated by using a finite-element method is marked with solid dots, and the breakthrough time in corresponding working conditions that is calculated by using the formula (1) is marked with solid triangles. It is found by comparison that, the results of the two calculation methods are very close, which also indicates that the calculation accuracy of the formula (1) is very high.

The above embodiment merely illustrates the technical idea and features of the present invention, aiming to make persons skilled in the art learn about the content of the present invention and implement the present invention accordingly, and is not intended to limit the protection scope of the present invention. Any equivalent variations or modifications made based on the spirit of the present invention shall fall within the protection scope of the present invention.

Claims

1. A method for determining breakthrough time of anti-seepage liners in a landfill, comprising the following steps: (a) detecting a leachate sample of the landfill to determine an initial concentration Co of pollutants, and monitoring a leachate head h-of the landfill;(b) determining a harm-causing or pollution-causing concentration CA of the pollutants according to a functional orientation of local groundwater of the landfill;(c) determining, related parameters of the anti-seepage liners and related parameters of pollutant migration, the related parameters of the anti-seepage liners comprising the thickness z of the anti-seepage liners, a permeability coefficient k of the anti-seepage liners, and a porosity n of a material of the anti-seepage liners; and the related parameters of pollutant migration comprising an effective diffusion coefficient Da* and a mechanical dispersion coefficient Dm of the pollutants in the anti-seepage liners, and an adsorption retardation factor Rd of the anti-seepage liners on the pollutants; and(d) calculating the breakthrough time t of the anti-seepage liners according to a formula:

2. The method for determining breakthrough time of anti-seepage liners in a landfill according to claim 1, wherein in step (a), the initial concentration Co of the pollutants is detected.

3. The method for determining breakthrough time of anti-seepage liners in a landfill according to claim 1, wherein a is 0.2899, b is −0.1343, and c is −0.01094.