An investigation of the interaction between landfill leachate and soils

Chafer, Morag A.

January 1990

A detailed review of literature reveals that although soil scientists have reported that soil is an excellent stabiliser of land applied waste, there is little evidence to assess the extremely complex reactions that occur when landfill leachate interacts with soil. In order to examine this, studies of mineralogical content, exchangeable cation status and chemical composition of soils were undertaken. Soil-leachate interactions were studied by column and batch techniques. When dealing with materials as variable and complex as soils, it is difficult to accurately identify the solid phase prior to contact. Owing to the large number and variety of concentrations of leachate constituents, it is considerably more difficult to quantitatively establish the results of interaction and assign alteration values to responsible mechanisms. However, this investigation did reveal the following: - 1. interaction does occur, but this interaction is not unlimited; 2. the degree of interaction is different for different soil types; 3. the relative influence of the mechanisms of interaction; 4. the influence of soil types, soil to leachate ratios and contact -times; and 5. soils previously thought to attenuate leachate have been found not to do so.

628.44

Landfill technology

Identifiering av deponerat material i en deponi samt metodikförslag för upprättande av vattenbalans.

vienola, sari

January 2008

<p>Högbytorp is Ragn-Sells’ largest waste facility and it is located north of Stockholm. There is an old landfill still in use, but at the end of this year it will be closed. The waste deposited on the landfill can, through decomposition, give rise to a large amount of methane gas, which is an energy rich gas that can be used for heat and electricity production. To receive a relatively large amount of gas, the decomposition requires a high moisture content in the waste. Therefore the landfill is dependent on precipitation input, although when the landfill is covered, rainfall can no longer infiltrate the landfill and hence irrigation might be necessary to sustain gas production. To know where to irrigate, knowledge about the material content in the landfill is necessary. Thus the purpose of this report is to identify and describe what kind and amount of waste that has been deposited on the landfill and also where the waste has been placed. The purpose is also to investigate the availability of methods and that are used in Sweden for establishing a water balance for a landfill. The identification work showed that the landfill consists mainly of household-, construction- and industrial waste, retted sludge from sewage treatment plants and soil, which all can produce large quantities of methane gas. The investigation about the different methods for conducting a water balance resulted in the presentation of two methods. One of the methods is called Hydrologic Evaluation of Landfill Performance (HELP) and is a computer simulation. The other method is an equation established by the Swedish Environmental Protection Agency (Naturvårdsverket). Both of the methods works well for obtaining a water balance, however modification is needed for each of them in order to be well suited for the studied landfill, so that realistic and site specific results can be obtained.</p>

landfill

identification of a landfill

organic material

landfill gas

water balance

landfill technology

transition phases

HELP model

deponi

identifiering av en deponi

organiskt material

deponigas

vattenbalans

deponeringsteknik

omvandlingsfaser

HELP modellen

Environmental engineering

Miljöteknik

Identifiering av deponerat material i en deponi samt metodikförslag för upprättande av vattenbalans.

vienola, sari

January 2008

Högbytorp is Ragn-Sells’ largest waste facility and it is located north of Stockholm. There is an old landfill still in use, but at the end of this year it will be closed. The waste deposited on the landfill can, through decomposition, give rise to a large amount of methane gas, which is an energy rich gas that can be used for heat and electricity production. To receive a relatively large amount of gas, the decomposition requires a high moisture content in the waste. Therefore the landfill is dependent on precipitation input, although when the landfill is covered, rainfall can no longer infiltrate the landfill and hence irrigation might be necessary to sustain gas production. To know where to irrigate, knowledge about the material content in the landfill is necessary. Thus the purpose of this report is to identify and describe what kind and amount of waste that has been deposited on the landfill and also where the waste has been placed. The purpose is also to investigate the availability of methods and that are used in Sweden for establishing a water balance for a landfill. The identification work showed that the landfill consists mainly of household-, construction- and industrial waste, retted sludge from sewage treatment plants and soil, which all can produce large quantities of methane gas. The investigation about the different methods for conducting a water balance resulted in the presentation of two methods. One of the methods is called Hydrologic Evaluation of Landfill Performance (HELP) and is a computer simulation. The other method is an equation established by the Swedish Environmental Protection Agency (Naturvårdsverket). Both of the methods works well for obtaining a water balance, however modification is needed for each of them in order to be well suited for the studied landfill, so that realistic and site specific results can be obtained.

landfill

identification of a landfill

organic material

landfill gas

water balance

landfill technology

transition phases

HELP model

deponi

identifiering av en deponi

organiskt material

deponigas

vattenbalans

deponeringsteknik

omvandlingsfaser

HELP modellen

Environmental engineering

Miljöteknik