Spatial and Temporal Temperature Distributions in Municipal Solid Waste Landfills

Hanson, James L.; Yeşiller, Nazlı; Oettle, Nicolas K.

doi:10.1061/(asce)ee.1943-7870.0000202

Cited by 139 publications

(89 citation statements)

References 28 publications

(10 reference statements)

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“…The temperature ranges in this study cover rather well the temperature ranges found in field conditions shown earlier and recently in [31]. As a result, when estimating long-term methane emissions from landfills, one must be cautious and select temperature coefficients carefully, based on representative data.…”

Section: Post-closure Management and Temperature Impact Coefficientsmentioning

confidence: 89%

Effects of Temperature on the Long-Term Behaviour of Waste Degradation, Emissions and Post-Closure Management Based on Landfill Simulators

Wang¹

2012

TOWMJ

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A demonstration pilot with seven anaerobic landfill simulators (LSRs) was used to study the impact of temperature in the range of 20 -46 °C on long-term landfill emissions, characteristics and tendencies, because of an evident lack of knowledge in this area. The pilot ran more than 1400 days. Higher temperatures accelerated the waste degradation and gas generation, but also resulted in higher leachate COD and NH 4 -N concentrations, which will prolong the aftercare period in order to meet the effluent discharge limits. Gas generation showed the highest temperature sensitivity, 1.6-2.8 % o C -1 , whereas COD, NH 4 -N and chloride emissions were on 0.8 -1.5 % o C -1 level. The temperature coefficient of gas generation differs considerably from the scarce values given in landfill simulation studies, but is in accordance with hydrolysis solubilisation related behaviour and gives thus more detailed information of landfill behaviour at different temperatures. The simulator results were applied in European conditions in a typical big landfill containing mainly organic matter, giving the length of aftercare over 200 years to achieve effluent discharge limits. Within the same aftercare period (around 200 years), mesophilic conditions compromised high gas production and near lowest leachate concentrations. The in situ landfill leachate pre-treatment process and a specific leachate management system are essential in order to achieve cost-effective and shorter landfill aftercare. The results give new information for evaluation and modelling of landfill control strategies in long-term in various environmental conditions.

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Section: Post-closure Management and Temperature Impact Coefficientsmentioning

confidence: 89%

Effects of Temperature on the Long-Term Behaviour of Waste Degradation, Emissions and Post-Closure Management Based on Landfill Simulators

Wang¹

2012

TOWMJ

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“…There is physical evidence of high rainfall over this time, but there was no temperature monitoring of the landfill. Hanson et al (2010) have indicated that significant temperature changes can occur in landfills over the timescale of this experiment, but there is no way of 'knowing if this occurred.…”

Section: Discussionmentioning

confidence: 99%

Resolution of electrical imaging of fluid movement in landfills

Jolly¹,

Beaven²,

Barker³

2011

Proceedings of the Institution of Civil Engineers - Waste and R

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This paper investigates the efficacy of time-lapse electrical imaging using surface electrodes to monitor the movement of leachate within a landfill. A laboratory-based study allowed direct comparison between observed physical dewatering and time-lapse electrical imaging data. In combination with a forward modelling study this demonstrated the limitations and advantages of this geophysical technique in terms of its applicability, resolution and complementarity to conventional dewatering monitoring techniques. It also confirmed the nature, likely magnitude and impact of artefacts created by the resistivity inversion process and highlighted the potential for misinterpretation of results. An 18-month study provided field results comparing hydrogeological and imaging data during the dewatering of a real landfill system. Insights gained from the laboratory study and forward modelling exercise greatly enhanced the interpretation of the field data, enabling the method to be applied with greater confidence in the future. The need to combine a forward modelling exercise with any interpretation of resistivity data is clearly demonstrated.

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“…hydration of combustion ash, aluminum production waste, metallic wastes, and lime), and possible smoldering combustion (Martin et al 2013). Field measurements indicate that, depending on waste type, waste density, climate, and operational conditions, landfill temperatures can typically reach as high as 608C (Rowe 2005;Hanson et al 2010;Bouazza et al 2011). Stark et al (2012) and Jafari et al (2014) reported significantly higher temperatures (e.g.…”

Section: Temperature Effectsmentioning

confidence: 99%

State-of-the-art report: GCL shear strength and its measurement – ten-year update

Fox

Stark

2015

Geosynthetics International

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This paper presents an invited update to our 2004 state-of-the-art report and provides a comprehensive source of information on the shear strength and shear strength testing of geosynthetic clay liners (GCLs). Essential concepts of shear stress-displacement behavior and shear strength are presented, followed by detailed discussions on the laboratory measurement of the shear strength of GCLs and GCL interfaces. The paper also provides recommendations for the selection of design strength envelopes for stability analyses and checklists to assist users in the specification of GCL shear testing programs. North American practice is emphasized and discussions are focused primarily within the context of landfill bottom liner and cover systems. Conclusions and recommendations are provided with regard to GCL shear strength behavior and current GCL strength testing practice, improvements for GCL strength testing are suggested, and future research needs are identified.

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Spatial and Temporal Temperature Distributions in Municipal Solid Waste Landfills

Cited by 139 publications

References 28 publications

Effects of Temperature on the Long-Term Behaviour of Waste Degradation, Emissions and Post-Closure Management Based on Landfill Simulators

Effects of Temperature on the Long-Term Behaviour of Waste Degradation, Emissions and Post-Closure Management Based on Landfill Simulators

Resolution of electrical imaging of fluid movement in landfills

State-of-the-art report: GCL shear strength and its measurement – ten-year update

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