% IMPORTANT: The following is UTF-8 encoded.  This means that in the presence
% of non-ASCII characters, it will not work with BibTeX 0.99 or older.
% Instead, you should use an up-to-date BibTeX implementation like “bibtex8” or
% “biber”.

@ARTICLE{Mielke:1050634,
      author       = {Mielke, Kristina and Ickenroth, Philipp and Jupke, Andreas},
      title        = {{E}xperimental {S}etup for {U}nderstanding the {I}nfluence
                      of {W}all {C}ontact of {S}tructured {P}acking {M}aterial on
                      {D}rop {S}edimentation in {L}iquid–{L}iquid {S}ystems},
      journal      = {Industrial $\&$ engineering chemistry research},
      volume       = {64},
      number       = {36},
      issn         = {0888-5885},
      address      = {Columbus, Ohio},
      publisher    = {American Chemical Society},
      reportid     = {FZJ-2026-00386},
      pages        = {17685 - 17695},
      year         = {2025},
      note         = {Grant: Exploratory Research Space: Seed Fund (2) als
                      Anschubfinanzierung zur Erforschung neuer
                      interdisziplinärer Ideen (RWTH intern)},
      abstract     = {To model liquid–liquid extraction columns (LLE-columns)
                      accurately, correlations for occurring phenomena inside the
                      columns (e.g., drop sedimentation) are necessary. Currently,
                      existing correlations for the sedimentation velocity of
                      drops in LLE-columns equipped with structured packings do
                      not consider the interaction of the drops with different
                      packing material surfaces or the complex geometry of those.
                      Therefore, utilizing these correlations for designing these
                      LLE-columns still exhibits high uncertainties, which
                      commonly necessitate cost- and time-expensive experiments.
                      To accelerate the efficiency of the design of these
                      LLE-columns, we present a measuring cell in which single
                      drop-wall interactions can be investigated. To quantify the
                      drop-wall interaction, drop velocity, contact angle, and
                      contact line can be measured optically while varying the
                      counter-current flow, drop size, tilting angle, and surface
                      material. The experimentally determined velocities are in
                      accordance with sedimentation velocities in structured
                      packings. Common correlations for sedimentation velocities
                      in structured packings turned out not to be universally
                      applicable.},
      cin          = {IBG-2},
      ddc          = {660},
      cid          = {I:(DE-Juel1)IBG-2-20101118},
      pnm          = {2172 - Utilization of renewable carbon and energy sources
                      and engineering of ecosystem functions (POF4-217)},
      pid          = {G:(DE-HGF)POF4-2172},
      typ          = {PUB:(DE-HGF)16},
      doi          = {10.1021/acs.iecr.5c01952},
      url          = {https://juser.fz-juelich.de/record/1050634},
}