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Environ Sci Pollut Res Int


Title:"Gas emission into the atmosphere from controlled landfills: an example from Legoli landfill (Tuscany, Italy)"
Author(s):Raco B; Battaglini R; Lelli M;
Address:"Institute of Geoscience and Georesources-CNR, 56124, Pisa, Italy. b.raco@igg.cnr.it"
Journal Title:Environ Sci Pollut Res Int
Year:2010
Volume:20100224
Issue:6
Page Number:1197 - 1206
DOI: 10.1007/s11356-010-0294-2
ISSN/ISBN:1614-7499 (Electronic) 0944-1344 (Linking)
Abstract:"BACKGROUND, AIM AND SCOPE: Landfill gas (LFG) tends to escape from the landfill surface even when LFG collecting systems are installed. Since LFG leaks are generally a noticeable percentage of the total production of LFG, the optimisation of the collection system is a fundamental step for both energy recovery and environmental impact mitigation. In this work, we suggest to take into account the results of direct measurements of gas fluxes at the air-cover interface to achieve this goal. MATERIALS AND METHODS: During the last 5 years (2004-2009), 11 soil gas emission surveys have been carried out at the Municipal Solid Waste landfill of Legoli (Peccioli municipality, Pisa Province, Italy) by means of the accumulation chamber method. Direct and simultaneous measurements of CH(4) and CO(2) fluxes from the landfill cover (about 140,000 m(2)) have been performed to estimate the total output of both gases discharged into the atmosphere. Three different data processing have been applied and compared: Arithmetic mean of raw data (AMRD), sequential Gaussian conditional simulations (SGCS) and turning bands conditional simulations (TBCS). The total amount of LFG (captured and not captured) obtained from processing of direct measurements has been compared with the corresponding outcomes of three different numerical models (LandGEM, IPCC waste model and GasSim). RESULTS: Measured fluxes vary from undetectable values (<0.05 mol m(-2) day(-1) for CH(4) and <0.02 mol m(-2) day(-1) for CO(2)) to 246 mol m(-2) day(-1) for CH(4) and 275 mol m(-2) day(-1) for CO(2). The specific CH(4) and CO(2) fluxes (flux per surface unit) vary from 1.8 to 7.9 mol m(-2) day(-1) and from 2.4 to 7.8 mol m(-2) day(-1), respectively. DISCUSSION: The three different estimation methodologies (AMRD, SGCS and TBCS) used to evaluate the total output of diffused CO(2) and CH(4) fluxes from soil provide similar estimations, whereas there are some mismatches between these results and those of numerical LFG production models. Isoflux maps show a non-uniform spatial distribution, with high-flux zones not always corresponding with high-temperature areas shown by thermographic images. CONCLUSIONS: The average value estimated over the 5-year period for the Legoli landfill is 245 mol min(-1) for CH(4) and 379 mol min(-1) for CO(2), whereas the volume percentage of CH(4) in the total gas discharged into the atmosphere varies from 29% to 51%, with a mean value of 39%. The estimated yearly emissions from the landfill cover is about 1.29 x 10(8) mol annum(-1) (2,100 t year(-1)) of CH(4) and 1.99 x 10(8) mol annum(-1) (8,800 t year(-1)) of CO(2). Considering that the CH(4) global warming potential is 63 times greater than that of CO(2) (20 a time horizon, Lashof and Ahuja 1990), the emission of methane corresponds to 130,000 t annum(-1) of CO(2). RECOMMENDATIONS AND PERSPECTIVES: The importance of these studies is to provide data for the worldwide inventory of CH(4) and CO(2) emissions from landfills, with the ultimate aim of determining the contribution of waste disposal to global warming. This kind of studies could be extended to other gas species, like the volatile organic compounds"
Keywords:Air Pollutants/*analysis Atmosphere/*chemistry Carbon Dioxide/analysis Environmental Monitoring Gases/*analysis Italy Methane/analysis *Refuse Disposal Waste Products/*analysis;
Notes:"MedlineRaco, Brunella Battaglini, Raffaele Lelli, Matteo eng Germany 2010/02/25 Environ Sci Pollut Res Int. 2010 Jul; 17(6):1197-206. doi: 10.1007/s11356-010-0294-2. Epub 2010 Feb 24"

 
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