Field measurements and modeling to resolve m2 to km2 CH4 emissions for a complex urban source: An Indiana landfill study

Large spatial and temporal uncertainties for landfill CH4 emissions remain unresolved by short-term field campaigns and historic greenhouse gas (GHG) inventory models. Using four field methods (aircraft-based mass balance, tracer correlation, vertical radial plume mapping, static chambers) and a new...

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Main Authors: Cambaliza, Maria Obiminda L, Bogner, Jean E, Green, Roger B, Shepson, Paul B, Harvey, Tierney A, Spokas, Kurt A, Stirm, Brian H, Corcoran, Margaret
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Published: Archīum Ateneo 2017
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Online Access:https://archium.ateneo.edu/physics-faculty-pubs/37
https://www.researchgate.net/profile/Jean_Bogner/publication/318213981_Field_measurements_and_modeling_to_resolve_m2_to_km2_CH4_emissions_for_a_complex_urban_source_An_Indiana_landfill_study/links/5a849f324585159152b80802/Field-measurements-and-modeling-to-resolve-m2-to-km2-CH4-emissions-for-a-complex-urban-source-An-Indiana-landfill-study.pdf
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spelling ph-ateneo-arc.physics-faculty-pubs-10362020-05-04T07:00:29Z Field measurements and modeling to resolve m2 to km2 CH4 emissions for a complex urban source: An Indiana landfill study Cambaliza, Maria Obiminda L Bogner, Jean E Green, Roger B Shepson, Paul B Harvey, Tierney A Spokas, Kurt A Stirm, Brian H Corcoran, Margaret Large spatial and temporal uncertainties for landfill CH4 emissions remain unresolved by short-term field campaigns and historic greenhouse gas (GHG) inventory models. Using four field methods (aircraft-based mass balance, tracer correlation, vertical radial plume mapping, static chambers) and a new field-validated process-based model (California Landfill Methane Inventory Model, CALMIM 5.4), we investigated the total CH4 emissions from a central Indiana landfill as well as the partitioned emissions inclusive of methanotrophic oxidation for the various cover soils at the site. We observed close agreement between whole site emissions derived from the tracer correlation (8 to 13 mol s–1) and the aircraft mass balance approaches (7 and 17 mol s–1) that were statistically indistinguishable from the modeling result (12 ± 2 mol s–1 inclusive of oxidation). Our model calculations indicated that approximately 90% of the annual average CH4 emissions (11 ± 1 mol s–1; 2200 ± 250 g m–2 d–1) derived from the small daily operational area. Characterized by a thin overnight soil cover directly overlying a thick sequence of older methanogenic waste without biogas recovery, this area constitutes only 2% of the 0.7 km2 total waste footprint area. Because this Indiana landfill is an upwind source for Indianapolis, USA, the resolution of m2 to km2 scale emissions at various temporal scales contributes to improved regional inventories relevant for addressing GHG mitigation strategies. Finally, our comparison of measured to reported CH4 emissions under the US EPA National GHG Reporting program suggests the need to revisit the current IPCC (2006) GHG inventory methodology based on CH4 generation modeling. The reasonable prediction of emissions at individual U.S. landfills requires incorporation of both cover-specific landfill climate modeling (e.g., soil temperature/moisture variability over a typical annual cycle driving CH4 transport and oxidation rates) as well as operational issues (e.g., cover thickness/properties, extent of biogas recovery). 2017-01-01T08:00:00Z text https://archium.ateneo.edu/physics-faculty-pubs/37 https://www.researchgate.net/profile/Jean_Bogner/publication/318213981_Field_measurements_and_modeling_to_resolve_m2_to_km2_CH4_emissions_for_a_complex_urban_source_An_Indiana_landfill_study/links/5a849f324585159152b80802/Field-measurements-and-modeling-to-resolve-m2-to-km2-CH4-emissions-for-a-complex-urban-source-An-Indiana-landfill-study.pdf Physics Faculty Publications Archīum Ateneo landfill methane emissions aircraft-based mass balance tracer correlation approach CALMIM methanogenic oxidation Atmospheric Sciences
institution Ateneo De Manila University
building Ateneo De Manila University Library
country Philippines
collection archium.Ateneo Institutional Repository
topic landfill
methane emissions
aircraft-based mass balance
tracer correlation approach
CALMIM
methanogenic oxidation
Atmospheric Sciences
spellingShingle landfill
methane emissions
aircraft-based mass balance
tracer correlation approach
CALMIM
methanogenic oxidation
Atmospheric Sciences
Cambaliza, Maria Obiminda L
Bogner, Jean E
Green, Roger B
Shepson, Paul B
Harvey, Tierney A
Spokas, Kurt A
Stirm, Brian H
Corcoran, Margaret
Field measurements and modeling to resolve m2 to km2 CH4 emissions for a complex urban source: An Indiana landfill study
description Large spatial and temporal uncertainties for landfill CH4 emissions remain unresolved by short-term field campaigns and historic greenhouse gas (GHG) inventory models. Using four field methods (aircraft-based mass balance, tracer correlation, vertical radial plume mapping, static chambers) and a new field-validated process-based model (California Landfill Methane Inventory Model, CALMIM 5.4), we investigated the total CH4 emissions from a central Indiana landfill as well as the partitioned emissions inclusive of methanotrophic oxidation for the various cover soils at the site. We observed close agreement between whole site emissions derived from the tracer correlation (8 to 13 mol s–1) and the aircraft mass balance approaches (7 and 17 mol s–1) that were statistically indistinguishable from the modeling result (12 ± 2 mol s–1 inclusive of oxidation). Our model calculations indicated that approximately 90% of the annual average CH4 emissions (11 ± 1 mol s–1; 2200 ± 250 g m–2 d–1) derived from the small daily operational area. Characterized by a thin overnight soil cover directly overlying a thick sequence of older methanogenic waste without biogas recovery, this area constitutes only 2% of the 0.7 km2 total waste footprint area. Because this Indiana landfill is an upwind source for Indianapolis, USA, the resolution of m2 to km2 scale emissions at various temporal scales contributes to improved regional inventories relevant for addressing GHG mitigation strategies. Finally, our comparison of measured to reported CH4 emissions under the US EPA National GHG Reporting program suggests the need to revisit the current IPCC (2006) GHG inventory methodology based on CH4 generation modeling. The reasonable prediction of emissions at individual U.S. landfills requires incorporation of both cover-specific landfill climate modeling (e.g., soil temperature/moisture variability over a typical annual cycle driving CH4 transport and oxidation rates) as well as operational issues (e.g., cover thickness/properties, extent of biogas recovery).
format text
author Cambaliza, Maria Obiminda L
Bogner, Jean E
Green, Roger B
Shepson, Paul B
Harvey, Tierney A
Spokas, Kurt A
Stirm, Brian H
Corcoran, Margaret
author_facet Cambaliza, Maria Obiminda L
Bogner, Jean E
Green, Roger B
Shepson, Paul B
Harvey, Tierney A
Spokas, Kurt A
Stirm, Brian H
Corcoran, Margaret
author_sort Cambaliza, Maria Obiminda L
title Field measurements and modeling to resolve m2 to km2 CH4 emissions for a complex urban source: An Indiana landfill study
title_short Field measurements and modeling to resolve m2 to km2 CH4 emissions for a complex urban source: An Indiana landfill study
title_full Field measurements and modeling to resolve m2 to km2 CH4 emissions for a complex urban source: An Indiana landfill study
title_fullStr Field measurements and modeling to resolve m2 to km2 CH4 emissions for a complex urban source: An Indiana landfill study
title_full_unstemmed Field measurements and modeling to resolve m2 to km2 CH4 emissions for a complex urban source: An Indiana landfill study
title_sort field measurements and modeling to resolve m2 to km2 ch4 emissions for a complex urban source: an indiana landfill study
publisher Archīum Ateneo
publishDate 2017
url https://archium.ateneo.edu/physics-faculty-pubs/37
https://www.researchgate.net/profile/Jean_Bogner/publication/318213981_Field_measurements_and_modeling_to_resolve_m2_to_km2_CH4_emissions_for_a_complex_urban_source_An_Indiana_landfill_study/links/5a849f324585159152b80802/Field-measurements-and-modeling-to-resolve-m2-to-km2-CH4-emissions-for-a-complex-urban-source-An-Indiana-landfill-study.pdf
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