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Bistability in a simple fluid network due to viscosity contrast

Bistability in a simple fluid network due to viscosity contrast. Brian Storey, John Geddes, David Gardner Franklin W. Olin College of Engineering Russell Carr University of New Hampshire. Problem and model. Fluids in inlet 1 and 2 have different viscosities,

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Bistability in a simple fluid network due to viscosity contrast

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  1. Bistability in a simple fluid network due to viscosity contrast Brian Storey, John Geddes, David Gardner Franklin W. Olin College of Engineering Russell Carr University of New Hampshire

  2. Problem and model Fluids in inlet 1 and 2 have different viscosities, but are otherwise simple Newtonian fluids.

  3. One non-linearity – Arrhenius Law

  4. Set flow Q1 and Q2– 2 states Q1 Q1 Qc Qc Q2 Q2

  5. Viscosity ratio = 1 Q1 Qc Q2 Q1 Qc Q2

  6. Viscosity ratio = 2 Q1 Qc Q2 Q1 Qc Q2

  7. Viscosity ratio = 10 Q1 Qc Q2 Q1 Qc Q2

  8. Viscosity ratio = 1,3,5,10,20,200

  9. Pressure driven- 4 states P1 P1 P1 P1 Qc Qc Qc Qc P2 P2 P2 P2

  10. Viscosity ratio =1 Q2=0 QC=0 Q1=0

  11. Viscosity ratio=10 Q2=0 QC=0 Q1=0

  12. Viscosity ratio=200

  13. Experimental setup Water P1 Qc Water + Sugar P=0 P2

  14. Experimental procedure

  15. Experimental data of sugar in inlet 2 (μ2)

  16. Criterion for existence of bistability Arrhenius viscosity law General viscosity law

  17. Conclusions • This work could have been done ~100 years ago. • We predict and observe bistability in a simple network with laminar flow of Newtonian fluids. Flow direction depends on history. • Perhaps the simplest example of bistability in (micro)fluidics? Quake Prakash and Gershenfeld Groisman et al

  18. Stratified flow – effective viscosity Immiscible Miscible, diffuse Fully mixed

  19. Stratified flow experiment

  20. Viscosity ratio = 5 Q1 Qc Q2 Q1 Qc Q2

  21. Viscosity ratio=5 Q2=0 QC=0 Q1=0

  22. Q1 Qc Q2

  23. Q1 Qc Q2

  24. Q1 Qc Q2

  25. Q1 Qc Q2

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