Lab Scale Simulation of a Leak in a Landfill Cover

Modin, Hanna; Palm, Helena; van Praagh, Martijn; Persson, Kenneth M

Lab Scale Simulation of a Leak in a Landfill Cover

Mark

Modin, Hanna ^LU ; Palm, Helena ; van Praagh, Martijn ^LU and Persson, Kenneth M ^LU (2010) Linnaeus ECO-TECH'10

Abstract: Many Swedish landfills are currently applied with a final cover. To minimise costs and the use of natural resources, waste materials can be a suitable substitute in landfill covers. Depending on the wastes’ contents, their mobility and in which layer of the final cover they are used, they could potentially contribute to the emission potential of the landfill. In this study the impact on landfill leachate quality from the drainage water of a final cover is investigated.

Part of a landfill and its cover, below the upper drainage layer, was simulated in lab scale: The simulated liner was constructed from a mixture of fibre and ash residues from paper pulp production and the foundation and gas drainage layer was simulated by bottom... (More); Many Swedish landfills are currently applied with a final cover. To minimise costs and the use of natural resources, waste materials can be a suitable substitute in landfill covers. Depending on the wastes’ contents, their mobility and in which layer of the final cover they are used, they could potentially contribute to the emission potential of the landfill. In this study the impact on landfill leachate quality from the drainage water of a final cover is investigated.

Part of a landfill and its cover, below the upper drainage layer, was simulated in lab scale: The simulated liner was constructed from a mixture of fibre and ash residues from paper pulp production and the foundation and gas drainage layer was simulated by bottom ash from a municipal solid waste incinerator. The waste below the liner was simulated by residues from sorting of construction and demolition waste.

The leachate from the simulated damaged landfill cover had elevated concentrations of many substances including metals, ions and organic matter. However, the simulated landfilled waste could sorb several of these. Ag, Cd, Cu, Hg, N, P, Pb and Sb were sorbed to such an extent that the effect from the cover leachate was unnoticeable. The only pollutants that passed through the waste unattenuated were As, K, Na, TOC, V and Zn. In a real landfill the sorption would be even better since the waste mass will be much larger compared to the cover. Despite elevated concentrations of potentially complex forming substances there was no evidence that the cover leachate enhanced the leaching of any contaminants from the waste. Altogether the results show that the use of the studied waste materials in landfill covers can only be expected to have a small effect on the concentration of contaminants in the leachate from the landfill. (Less)

Please use this url to cite or link to this publication: https://lup.lub.lu.se/record/2493298

author

Modin, Hanna ^LU ; Palm, Helena ; van Praagh, Martijn ^LU and Persson, Kenneth M ^LU

organization

Division of Water Resources Engineering

publishing date

2010

type

Contribution to conference

publication status

published

subject

Water Engineering

keywords

Landfill cover, Landfill liner, Leachate, Sorption, Metals, Organic matter.

conference name

Linnaeus ECO-TECH'10

conference location

Kalmar, Sweden

conference dates

2010-11-22

language

English

LU publication?

yes

id

8cf8bb52-76c2-4821-8366-6ac7c565568a (old id 2493298)

date added to LUP

2016-04-04 13:42:58

date last changed

2018-11-21 21:15:48

@misc{8cf8bb52-76c2-4821-8366-6ac7c565568a,
  abstract     = {{Many Swedish landfills are currently applied with a final cover. To minimise costs and the use of natural resources, waste materials can be a suitable substitute in landfill covers. Depending on the wastes’ contents, their mobility and in which layer of the final cover they are used, they could potentially contribute to the emission potential of the landfill. In this study the impact on landfill leachate quality from the drainage water of a final cover is investigated. <br/><br>
Part of a landfill and its cover, below the upper drainage layer, was simulated in lab scale: The simulated liner was constructed from a mixture of fibre and ash residues from paper pulp production and the foundation and gas drainage layer was simulated by bottom ash from a municipal solid waste incinerator. The waste below the liner was simulated by residues from sorting of construction and demolition waste.<br/><br>
The leachate from the simulated damaged landfill cover had elevated concentrations of many substances including metals, ions and organic matter. However, the simulated landfilled waste could sorb several of these. Ag, Cd, Cu, Hg, N, P, Pb and Sb were sorbed to such an extent that the effect from the cover leachate was unnoticeable. The only pollutants that passed through the waste unattenuated were As, K, Na, TOC, V and Zn. In a real landfill the sorption would be even better since the waste mass will be much larger compared to the cover. Despite elevated concentrations of potentially complex forming substances there was no evidence that the cover leachate enhanced the leaching of any contaminants from the waste. Altogether the results show that the use of the studied waste materials in landfill covers can only be expected to have a small effect on the concentration of contaminants in the leachate from the landfill.}},
  author       = {{Modin, Hanna and Palm, Helena and van Praagh, Martijn and Persson, Kenneth M}},
  keywords     = {{Landfill cover; Landfill liner; Leachate; Sorption; Metals; Organic matter.}},
  language     = {{eng}},
  title        = {{Lab Scale Simulation of a Leak in a Landfill Cover}},
  year         = {{2010}},
}

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Lab Scale Simulation of a Leak in a Landfill Cover