R. Prantl scite author profile

Disposal of untreated municipal solid waste leads to gaseous emissions as well as liquid degradation products. In situ aeration is an emerging means for remediation of abandoned landfills. It aims at an accelerated mineralization and stabilization of waste organic matter and thus reduces significantly the emission potential of the site. In order to prove the success of the technique, evaluation of the biological stability of the aerated material has been suggested. Fourier Transform Infrared Spectroscopy (FT-IR) provides comprehensive information on the chemical composition of solid waste samples. Different stages of organic matter degradation are reflected by changes in the infrared spectral pattern. In the present study the feasibility of applying FT-IR for assessment of the stability of waste material derived from abandoned landfills and for in situ aeration process control was investigated. Waste samples derived in the course of pilot-scale and lab-scale aeration experiments were characterized by FT-IR (4000-400 cm(-1), KBr-technique, transmission mode) and a set of conventional parameters describing biological stability. The occurrence of distinct indicator bands was correlated with chemical and biological waste properties using 206 solid waste samples. Visual spectra interpretation was found to be appropriate in proving a reduced emission potential of initially rather reactive waste (respiration activity over 4 days (RA(4)) > 7 mg O(2) g(-1) DM) during aeration. Furthermore, cluster analysis was applied successfully to differentiate between original and aerated waste samples, even for rather stable material (RA(4) < 7 mg O(2) g(-1) DM), when visual spectra interpretation was limited.

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Using multivariate regression modeling for sampling and predicting chemical characteristics of mixed waste in old landfills

Brandstätter¹,

Laner²,

Prantl³

et al. 2014

Waste Management

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Performance assessment of landfill in-situ aeration – A case study

Brandstätter

Prantl²,

Fellner

2020

Waste Management

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Pilotversuch zur In-Situ Aerobisierung von Deponien in Österreich

Prantl

Tesař²,

Huber-Humer³

et al. 2006

Österr. Wasser- und Abfallwirtschaft

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R. Prantl

Changes in carbon and nitrogen pool during in-situ aeration of old landfills under varying conditions

Application of FT-IR for assessment of the biological stability of landfilled municipal solid waste (MSW) during in situ aeration

Using multivariate regression modeling for sampling and predicting chemical characteristics of mixed waste in old landfills

Performance assessment of landfill in-situ aeration – A case study

Pilotversuch zur In-Situ Aerobisierung von Deponien in Österreich

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