Effects of Mixing on Adipic Acid Crystallization - PowerPoint PPT Presentation

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Effects of Mixing on Adipic Acid Crystallization

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Effects of Mixing on Adipic Acid Crystallization Susan Philyaw, Kathryn Baker, Randal Nelson, Jessica Moffitt, Joy Sroykum and Dr. Terry Ring Outline of Talk ... – PowerPoint PPT presentation

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Title: Effects of Mixing on Adipic Acid Crystallization


1
Effects of Mixing on Adipic Acid Crystallization
  • Susan Philyaw,
  • Kathryn Baker, Randal Nelson, Jessica Moffitt,
    Joy Sroykum and Dr. Terry Ring

2
Outline of Talk
  • Introduction- What is Adipic Acid?
  • Background- Purpose for Study.
  • Previous Research- Comparison.
  • Experimental System- Equipment.
  • Experimental Procedure- How we did it.
  • Results- What we found
  • Conclusions

3
Introduction
  • Adipic acid 2 Billion tonne /yr.
  • Adipic acid used in Nylon Manufacture
  • WH. Carothers at Dupont discovered Nylon in
    1930s
  • Adipic acid is a natural product found in some
    plants
  • Adipic acid is produced by an oxidation reaction
  • oxidation of cyclo-hexane
  • oxidation of phenol (minor route).
  • Other uses
  • Resins, Polyurethanes, and Plasticizers

4
Background
  • Purpose of study Increase Quality Control
  • Adipic acid is crystallized from an aqueous
    solution by cooling.
  • Aggregation/Agglomeration
  • Advantages
  • Easy to Filter
  • Challenges
  • Difficult to control crystal size distribution
  • Adheres to the reactor walls and other parts
  • Aggregates trap impurities/solvent in the voids
    of particles

5
Previous Research
  • Rene Davids Paper
  • Stirred tank with cooling
  • Aqueous Adipic Acid Solution
  • S. Derenzos Paper
  • Batch with cooling
  • Aqueous Solution of Adipic Acid
  • Ethanol Solution of Adipic Acid
  • A. Meyersons Paper
  • Batch with cooling
  • Alcohol Solution of Adipic Acid
  • Tulocks Paper
  • Batch with cooling
  • Aqueous Adipic Acid Solution
  • Cesar and Ng
  • Batch with cooling
  • Aqueous Adipic Acid Solution
  • Williams-Seton, et. al.
  • Batch with cooling
  • Aqueous Adipic Acid Solution


6
Experimental System
  • Reactor- Continuous Stirred Tank (CSTR)
  • Volume 1.243 liters
  • Operating Condition
  • Impeller RPM varied 400 to 800 rpm
  • Flow rate held constant 120.0 ml/min
  • Reactor Temperature T15 C.
  • Solution Properties
  • Concentration and Temperature
  • 18.2 gm/liter at 22.0 C.

7
Solubility
8
On-Line Analysis Computer Data Logging
  • Feed Flow Rate
  • Product Flow Rate
  • Reactor
  • Temperature - ?
  • Stirrer RPM - ?
  • Stirrer Torque - ?
  • Heat Balance - ?

9
Tank Internals
10
Off-line Analysis
  • Steady State Sample
  • Yield
  • Particle Size Distribution
  • Beckman Coulter LS-230 (40 nm to 2000µm)
  • Particle Morphology
  • SEM

11
Residence Time Measurements
T,C
T,C
Time(min)
Time(min)
T(To-Tin)exp(-t/tau)Tin
12
Residence Time Measurements
  • Pulse Addition to Steady State CSTR
  • Visual Blue Dye
  • Salt Conductivity
  • Hot Temperature
  • Acid pH converted to H concentration
  • Done Simultaneously
  • All the results are similar!

13
GOOD vs BAD MIXING
20 RPM
300 RPM
14
Mean Residence Time Results
Vreactor 1280 ml
15
RDT Variance Results
16
Experimental Procedure
  • Experimental Procedure
  • Saturated Solution of Adipic acid feed to CSTR
  • Mean Residence time of 10 minutes
  • Steady state time of 50 minutes
  • Flow rate constant 120 ml/min
  • Rpm of impeller varied - 400, 800 rpm
  • Samples taken at steady state
  • Sample filtered, dried weighed to get yield
  • PSD, Beckman-Coulter LS 230 small volume
    particle distribution unit
  • Particle Morphology - SEM

17
Results-2 400 rpm
18
Results 2 - 800 rpm
50 micro meters
500 micro meters
19
Results-3
  • Yield
  • 400 rpm 645
  • 800 rpm 61 5
  • Particle Size Distribution

20
Particle Size Distribution
21
Conclusions
  • Mixing speed must be greater than 200 rpm
  • Ideal Mixing in Stirred Tank
  • Mixing speed controls the aggregate size
  • Smaller aggregates give less impurities
  • Smaller aggregates are more difficult to filter

22
Acknowledgement
  • DOE/OIT
  • Industries of the Future Research Program
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