Role of pore channel geometry and inertia on length-scales for transition of non-Fickian to Fickian solute transport phenomenon at pore-scale

    flowchart
    W[2019AGUFM.H21I1857B]
    LA["Linked Authors (0)"]
    LI["Linked Institutions (2)"]
    W== author ==>LA
    W== affil ==>LI
    click LA "#linked-authors"
    click LI "#linked-institutions"

Graph neighborhood for 'Role of pore channel geometry and inertia on length-scales for transition of non-Fickian to Fickian solute transport phenomenon at pore-scale'. Click aggregate nodes to navigate.

ADS bibcode: 2019AGUFM.H21I1857B
year: 2019
Listed Authors: Bradley, J.; Wang, L.; Singh, K.
Listed Institutions: Ravenna, OH, United States; Geological Sciences, University of Texas at Austin, Austin, TX, United States; Kent State University Kent Campus, Kent, OH, United States

Linked Authors [?]

Linked Institutions

Kent State University, Ohio
University of Texas, Austin, Department of Geological Sciences