TechnicalNotes
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ACR

AMT TN-14

Improved Heat Transfer Jacket Performance for the Coflore® ACR

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ACR

AMT TN-13

Pressure Drop in the Coflore ACR

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ATR

AMT TN-12

Pressure Drop Flow Curves for the 10 L Coflore® ATR

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ACR

AMT TN-11

Residence Time Distribution in the Coflore® ACR

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ACR

AMT TN-10

Exothermic control in the Coflore® ACR

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ATR

AMT TN-09

Key Summary of Simple Magnesium Solids Handling in the Coflore® ATR

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ATR

AMT TN-08

Pressure Drop Across the 0.35 L ATR Reactor Tube

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RTR

AMT TN-07

Residence Time Distribution in the Coflore® RTR

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ACR

AMT TN-01 Supplementary Information

Supplementary Information for AMT TN-01

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ACR

AMT TN-06

Effect of Agitation Frequency on the Heat Transfer Coefficient at Various Process Flow Rates in the Coflore® ACR

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ACR

AMT TN-05

Effect of Heat Transfer Fluid Flow Rate on the Heat Transfer Coefficient at Various Process Flow Rates in the Coflore® ACR

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MHR

AMT TN-04

Aromatic hydrogenation in the Coflore® MHR

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ACR

AMT TN-03

Calcium Carbonate Slurry Recycling in the Coflore® ACR

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ACR

AMT TN-02

Slurry Handling Within the Coflore® ACR - Case Study 1

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ACR

AMT TN-01

Bourne Reaction Characterisation of the Coflore® ACR

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Coflore Flow Reactors

Technical Notes

“One of today's most important tools for modernizing the pharmaceutical industry is a process known as continuous manufacturing”

Director of the FDA’s Centre for Drug Evaluation and Research,

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