Estimating Total Methane Emissions from the Denver-Julesburg Basin Using Bottom-Up Approaches-Reference-Cited by-同舟云学术

Estimating Total Methane Emissions from the Denver-Julesburg Basin Using Bottom-Up Approaches

Published:2024-08-05 Issue:3 Volume:4 Page:236-252
ISSN:2673-5628
Container-title:Gases
language:en
Short-container-title:Gases

Author:

Riddick Stuart N.¹^ORCID,Mbua Mercy¹^ORCID,Anand Abhinav¹,Kiplimo Elijah¹^ORCID,Santos Arthur¹^ORCID,Upreti Aashish¹,Zimmerle Daniel J.¹^ORCID

Affiliation:

1. Methane Emission Technology Evaluation Center (METEC), The Energy Institute, Colorado State University, Fort Collins, CO 80524, USA

Abstract

Methane is a powerful greenhouse gas with a 25 times higher 100-year warming potential than carbon dioxide and is a target for mitigation to achieve climate goals. To control and curb methane emissions, estimates are required from the sources and sectors which are typically generated using bottom-up methods. However, recent studies have shown that national and international bottom-up approaches can significantly underestimate emissions. In this study, we present three bottom-up approaches used to estimate methane emissions from all emission sectors in the Denver-Julesburg basin, CO, USA. Our data show emissions generated from all three methods are lower than historic measurements. A Tier 1/2 approach using IPCC emission factors estimated 2022 methane emissions of 358 Gg (0.8% of produced methane lost by the energy sector), while a Tier 3 EPA-based approach estimated emissions of 269 Gg (0.2%). Using emission factors informed by contemporary and region-specific measurement studies, emissions of 212 Gg (0.2%) were calculated. The largest difference in emissions estimates were a result of using the Mechanistic Air Emissions Simulator (MAES) for the production and transport of oil and gas in the DJ basin. The MAES accounts for changes to regulatory practice in the DJ basin, which include comprehensive requirements for compressors, pneumatics, equipment leaks, and fugitive emissions, which were implemented to reduce emissions starting in 2014. The measurement revealed that normalized gas loss is predicted to have been reduced by a factor of 20 when compared to 10-year-old normalization loss measurements and a factor of 10 less than a nearby oil and production area (Delaware basin, TX); however, we suggest that more measurements should be made to ensure that the long-tail emission distribution has been captured by the modeling. This study suggests that regulations implemented by the Colorado Department of Public Health and Environment could have reduced emissions by a factor of 20, but contemporary regional measurements should be made to ensure these bottom-up calculations are realistic.

Funder

Department of Energy

Publisher

MDPI AG

Link

https://www.mdpi.com/2673-5628/4/3/14/pdf

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