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A pressure-composition phase diagram explicitly describes the behavior of an ideal solution of two volatile liquids under varying pressures and compositions. A pressure-composition diagram has two main curves. The bubble point curve represents the plot of pressure versus liquid mole fraction. It indicates the pressure at which the first bubble of vapor forms from the liquid phase as the system pressure decreases.The dew point curve is the pressure versus vapor mole fraction. It indicates the...
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Wall-generated pattern on a periodically excited miscible liquid/liquid interface.

Valentina Shevtsova1,2, Yuri Gaponenko1,2, Viktar Yasnou1,2

  • 1MRC, CP-165/62, Université Libre de Bruxelles (ULB), 50 av. F.D. Roosevelt, B-1050 Brussels, Belgium.

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|May 12, 2015
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Summary
This summary is machine-generated.

Researchers discovered a new "fish-spine" pattern in vibrating liquid interfaces. This pattern competes with or coexists with frozen waves, offering insights into fluid dynamics and pattern formation.

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Area of Science:

  • Fluid dynamics
  • Pattern formation
  • Interface physics

Background:

  • Interfaces between miscible liquids can exhibit complex behaviors under external stimuli.
  • Horizontal vibration of liquid cells is known to induce various instabilities and patterns.

Purpose of the Study:

  • To introduce and characterize a novel generic pattern observed at the interface of miscible liquids in a horizontally vibrated cell.
  • To investigate the formation mechanism and dynamics of this new pattern, termed 'fish-spine'.

Main Methods:

  • Laboratory experiments involving horizontally vibrated cells with miscible liquids.
  • Numerical simulations to model and analyze the pattern formation.
  • Theoretical modeling to explain the mechanism of the fish-spine pattern.

Main Results:

  • Observation of a new 'fish-spine' pattern generated by bounding walls.
  • The pattern appears both below and above the frozen-wave instability threshold.
  • Competition and coexistence of 'fish-spine' and frozen-wave patterns were observed.

Conclusions:

  • The 'fish-spine' pattern represents a new generic type of interface pattern.
  • A theoretical model explains the formation and spreading of the fish-spine pattern.
  • Understanding this pattern provides insights into interfacial instabilities and pattern dynamics.