Skip to content
RDL
Network
Ekosistem
Uygulama değiştir
EN
Hakkımızda
SSS
Giriş yap
Başla
Characterization, Evolution and Physics-based Quantification of Methane Emissions from Leaking Underground NG Pipelines — S. Tian (2020) | RDL Network
Back
Cite
Save
Save for later
Share
Home
Publications
Characterization, Evolution and Physics-based Quantification of Methane Emissions from Leaking Underground NG Pipelines
Shared by
Daniel Zimmerle
Colorado State University
Characterization, Evolution and Physics-based Quantification of Methane Emissions from Leaking Underground NG Pipelines
Article
2020
en
Authors
+4 more
ST
S. Tian
KS
Kathleen M. Smits
YC
Y. Cho
Discussion
(0)
Sign in
to like and join the discussion.
No comments yet. Be the first to comment.
Related publications
Article
2019
Gone with the Wind: Natural Gas Emissions from Leaking Underground Pipelines and Implications for Detection Systems
Kathleen M. Smits
,
Bridget A. Ulrich
,
Daniel Zimmerle
,
Y. Cho
Article
2022
Estimating methane emissions from underground natural gas pipelines using an atmospheric dispersion-based method
Shanru Tian
,
Kathleen M. Smits
,
Younki Cho
,
Stuart N. Riddick
,
Daniel Zimmerle
,
Aidan Duggan
Article
2024
Flow and Transport of Methane from Leaking Underground Pipelines: Effects of Soil Surface Conditions and Implications for Natural Gas Leak Classification
J.R.R.N. Jayarathne
,
Daniel Zimmerle
,
Richard Kolodziej
,
Stuart N. Riddick
,
Kathleen M. Smits
Preprint
2024
Unraveling Natural Gas Migration Rate and Extent from Leaking Underground Pipelines under Varying Environmental Conditions
Kathleen M. Smits
,
Navodi Jayarathne
,
Daniel Zimmerle
,
Stuart N. Riddick
,
Richard Kolodziej
Article
2019
Natural Gas Emissions from Underground Pipelines and Implications for Leak Detection
Bridget A. Ulrich
,
Melissa Mitton
,
Emily Lachenmeyer
,
A. Hecobian
,
Daniel Zimmerle
,
Kathleen M. Smits
Discussion(0)
No comments yet. Be the first to comment.