5. Oscillatory Flow Mixing (OFM). Wave Energy devices
1976-79 Sussex University; Applied Sciences; Material Science Division.
Air turbine generates power
Dr Graham Knott 5
16. 1990s; “Industry will commercialise OFM technology”
1. ICI Wilton,
Nylon Monomer.
Pilot plant kg /hr for 2 years
2. BP Sunbury
Pilot OFM Plant
1990s 16
17. Chem Eng Oscillatory Flow Reactor (OFR)
- Oscillator Base Unit
- Feed inlet section
- Shell and baffled tube vessels
- Product outlet section
Dr Paul Stonestreet 17
18. Chem Eng Lab Scale OFR
Paul Stonestreet, Adam Harvey 1999
18
22. The OFM Meso Reactor
System configuration
Meso tube,
diameter d
Smooth constrictions:
Nuno Reis, Minghzi Zheng spacing 3d
2000s Minimum constriction
diameter 0.4d 22
23. 3 5 m m , V 4 .5 m L
a)
L
d d0
45º
b)
23
24. The meso-tube and dimensionless groups
• Governing dimensionless groups
• Geometr Oscillatory Reynolds number Re o
2 fx o d
y
Fluid oscillation Reynolds number
l d
Strouhal number St
4 x o
h d
b
The ratio of tube diameter to
amplitude
d=5.0 mm, λ=15.2 mm, h=1.6 mm,
δ=6.4 mm, β≈45o U d
Net flow Reynolds number Re n
Smooth Periodic Constrictions
Oscillatory flow Meso-Reactor Fluid net flow Reynolds number
24
25. Experimental and Modelling
Experiment setup Numerical Modelling
The 3-D hexahedral mesh for simulation (Fluent®)
Particle Imaging velocimetry (PIV) system
u( t ) 2 fx 0 cos( 2 ft )
Phase position
4 D
2
3 5
m (t ) u (t )
2 6
X0
4
0 1 7 8
•Periodic boundary condition
Phase position for an oscillation cycle
25
29. Dispersion model
Governing equation Imperfect injection method; numerical fitting
c (t ) Pe t
2
C (t ) Pe
C D C C
2
TR t exp 1
D c ( t ) dt 4 t
3
4t /
uL Z Z
2 0
uL
N 2
C t C t ' C 2 t ' TR ( t p ) C 1 p dp
t
C
i 1
2 i 2 i 0
29
30. Model fitting
Net flow without oscillation • Net flow with oscillation
Ren=58,Reo=0 • Ren=58, Reo=312, St=0.4
0.016 0.02
Exp-C(t) b) Exp-E(t)1
(a) 1 0.018
0.014 Exp-E(t)2
Exp-C(t)
2 0.016
Probe 1 Exp-E(t)3
0.012 Exp-C(t)
3 Fit-E(t)2 (1->2)
0.014
Fit-C(t)3 ' (2->3)
Fit-E(t)3 (1->3)
0.01 0.012
Fit-E(t)3 (2->3)
E(t) (-)
C(t) (-)
0.008 0.01
0.008
0.006
Probe 2 0.006
0.004 Probe 3 0.004
0.002 0.002
0 0
0 100 200 300 400 500 600 700 800 900
0 200 400 600 800 1000 1200
Time (s)
Time (s)
30
31. Liquid-liquid dispersion
a) f=6Hz a) xo=3 mm
b) f=10Hz b) xo=4 mm
Silicon oil (4.6mPas,2.5%) mixing Silicon oil (4.6mPas, 2.5%) mixing
with water at xo=2 mm with water at f=6Hz
31
32. Particles in suspension
Instantaneous velocity vector maps of fluid phase at Reo = 625,
x0 = 2 mm, f = 10.0 Hz at vertical position in the presence of 3% 32
(v/v ) amount of ion-exchange particles
35. What went right with OFM invention.
The science was a lot of fun
What went wrong.
Lack of focus in pushing the technology
35
36. Acknowledgments.
A cast of many;
In particular,
Part 2B Students
Postgraduates
Postdoctorates
Chem Eng support staff
Bob Skelton
“The Department”
“For allowing me the freedom to develop speculative ideas”
Thank you! 36
