Monitoring of Polymerization reactions

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   |description = Timed sampling of polymer reactor vessel under high pressure and temperature.
   |description = Timed sampling of polymer reactor vessel under high pressure and temperature.
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=== Overview ===
=== Overview ===
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This application uses a re-circulating pump to continuously flow fluid from a reactor vessel to the HPLC valve of the PAL. At specified timed intervals the HPLC valve toggles so that the loop contain the the reaction fluid is taken tmeporarily out of flow, and the contents of the loop is sampled using a syringe and placed in a storage vial for later analysis.  
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Reaction monitoring of polymers, chemicals, and fermentation broths is a vital part of product development. Often times these reactions are at elevated temperatures and pressures in the presence of catalysts. Reactions can take a couple hours up to a full day to complete.
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Quenching: Samples often need quenching to stop the reaction at specific time points. This application is geared toward a cost effective yet reliable way of taking timed samples and quenching each sample with optional just-in-time chemical analysis by either gas or liquid chromatography.
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One such reaction is the catalytic conversion of a mixture of monomers to a mixture of polymers of specific chain lengths to achieve the properties needed for a specific application. Typical reaction conditions include temperatures of 100 C, pressures of 100 psi, and 18 hour reaction durations. Often very volatile and explosive solvents are involved which presents a very real safety issue when unattended timed samples are taken. It is also important that the sampling does not interfere with the polymeric reaction.
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The whole system can be placed upon a moveable cart and positioned close to any reactor.  
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LEAP has broken new ground in one such application, where the complexities of this type of reaction monitoring has been fully automated using a PAL [http://leapwiki.com/mediawiki/index.php?title=Category:PAL]workstation equipped with a sampling valve, a gear pump, and timing software to control the whole process.
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=== Market/Applications ===
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* Method development in many industries,
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* Pharma, Bio Tech, Polymer.
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* QC at production sites.
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* Process stream monitoring in plant or waste water discharge stream.
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'''Flow Diagram in default position:'''
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===The Process===
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The reaction monitoring process begins with the operator creating a sample list with the desired number of timed samples and the desired amount of reactant for each time point. The timing software automatically calculates the amount of quench reagent to add and the resulting dilution factor of the reactant. The Pal then pre-fills the proper number of 2ml chromatography glass vials with the appropriate amount of quenching solvent. A time zero sample point is taken and the software prompts the operator to add the catalyst.
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The Pal then proceeds to take the proper number of samples at the proper times and deposits each sample into a 2ml vial with the quenching reagent. The sampling system is cleaned thoroughly between each sample to insure that none of the quenching solvent enters into the reactor. The recirculating flow rate is such that each timed sample is representative of the contents of the reactor.
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LEAP Shell handles the sample scheduling of each of the three stages of the sampling process, time stamps and logs each step to a permanent file, and prepares an export file suitable to import into the chromatographic data acquisition software. The whole process is automated in a safe and reliable manner so that an operator does not have to work late into the night.
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[[Image:Promerus_Flow_Diagram.png]]
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The whole system can be placed upon a movable cart and positioned close to any reactor.  
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'''Flow Diagram in default position (Loop being flushed):'''
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'''Flow diagram when sampling:'''
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[[Image:Promerus_Flow_Diagram_2.png|center]]
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[[Image:Promerus_Flow_Diagram_2.png]]
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'''Flow diagram when sampling from loop:'''
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[[Image:Promerus_Flow_Diagram.png|center]]
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The waste container with restrictor is to trap expansion liquid/gas in the case where the reaction mixture is under pressure.
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'''Overall System Layout:'''
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[[Image:Promerus_System_Layout.png ]]
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[[Image:Promerus_System_Layout.png|center]]
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=== Screen Shots ===
=== Screen Shots ===
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<gallery>
<gallery>
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   Image:Promerus_Queue_-_running.png  | Runtime reporting of status in Queue
   Image:Promerus_Queue_-_running.png  | Runtime reporting of status in Queue
</gallery>
</gallery>
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=== Further Documentation ===
=== Further Documentation ===
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LEAP Application Note:   [[Reaction_Monitoring_App_Note.pdf]]
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[[image: Info icon.png|40px]] [[:Media:Reaction Monitoring.pps  | Reaction Monitoring Power Point]]
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[[image: Info icon.png|40px]] [[:Media:Reaction_Monitoring_App_Note.pdf | LEAP Application Note]]
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=== Videos of PAL ===
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<br>
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[[Image:Movie Icon.png|40px]]
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[http://www.youtube.com/user/LEAPTechnologies#g/u LEAP's PAL Application Videos on YouTube]
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<br>
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----
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{{logo}}
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LEAP provides automated workstation instrumentation solutions based on the LEAP CTC PAL X, Y, Z syringe only autosampler robot from LEAP Technologies. This extremely flexible, precise, and adaptable liquid handling robotic platform is available in a variety of lengths and options depending on the requirements of your sample preparation and injections for your UHPLC, LC or GC chromatography.LEAP offers full support and service for the PAL platform in addition to being able to write custom macros, cycles, and scheduling to your applications. Please contact LEAP Technologies on how we can help you get maximized throughput with flexible pipetting automation solutions.
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=== Contact LEAP ===
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{{contact|topic=LEAP and the PAL Platform}}
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[[Category:LEAP Shell]]
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[[Category:Process Monitoring]]
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[[Category:Application_Solutions]]

Current revision

Monitoring of Polymerization reactions
Application Type
  SPECIAL
Application ID
 
Description
  Timed sampling of polymer reactor vessel under high pressure and temperature.
 ↳ leaptec.com  ↳ leapwiki.com

Contents

Overview

Reaction monitoring of polymers, chemicals, and fermentation broths is a vital part of product development. Often times these reactions are at elevated temperatures and pressures in the presence of catalysts. Reactions can take a couple hours up to a full day to complete. Quenching: Samples often need quenching to stop the reaction at specific time points. This application is geared toward a cost effective yet reliable way of taking timed samples and quenching each sample with optional just-in-time chemical analysis by either gas or liquid chromatography. One such reaction is the catalytic conversion of a mixture of monomers to a mixture of polymers of specific chain lengths to achieve the properties needed for a specific application. Typical reaction conditions include temperatures of 100 C, pressures of 100 psi, and 18 hour reaction durations. Often very volatile and explosive solvents are involved which presents a very real safety issue when unattended timed samples are taken. It is also important that the sampling does not interfere with the polymeric reaction.

LEAP has broken new ground in one such application, where the complexities of this type of reaction monitoring has been fully automated using a PAL [1]workstation equipped with a sampling valve, a gear pump, and timing software to control the whole process.

Market/Applications

  • Method development in many industries,
  • Pharma, Bio Tech, Polymer.
  • QC at production sites.
  • Process stream monitoring in plant or waste water discharge stream.

The Process

The reaction monitoring process begins with the operator creating a sample list with the desired number of timed samples and the desired amount of reactant for each time point. The timing software automatically calculates the amount of quench reagent to add and the resulting dilution factor of the reactant. The Pal then pre-fills the proper number of 2ml chromatography glass vials with the appropriate amount of quenching solvent. A time zero sample point is taken and the software prompts the operator to add the catalyst. The Pal then proceeds to take the proper number of samples at the proper times and deposits each sample into a 2ml vial with the quenching reagent. The sampling system is cleaned thoroughly between each sample to insure that none of the quenching solvent enters into the reactor. The recirculating flow rate is such that each timed sample is representative of the contents of the reactor. LEAP Shell handles the sample scheduling of each of the three stages of the sampling process, time stamps and logs each step to a permanent file, and prepares an export file suitable to import into the chromatographic data acquisition software. The whole process is automated in a safe and reliable manner so that an operator does not have to work late into the night.

The whole system can be placed upon a movable cart and positioned close to any reactor.


Flow Diagram in default position (Loop being flushed):

Flow diagram when sampling from loop:

The waste container with restrictor is to trap expansion liquid/gas in the case where the reaction mixture is under pressure.

Overall System Layout:

Screen Shots

Further Documentation

Reaction Monitoring Power Point

LEAP Application Note

Videos of PAL


LEAP's PAL Application Videos on YouTube


 ↳ leaptec.com  ↳ leapwiki.com

LEAP provides automated workstation instrumentation solutions based on the LEAP CTC PAL X, Y, Z syringe only autosampler robot from LEAP Technologies. This extremely flexible, precise, and adaptable liquid handling robotic platform is available in a variety of lengths and options depending on the requirements of your sample preparation and injections for your UHPLC, LC or GC chromatography.LEAP offers full support and service for the PAL platform in addition to being able to write custom macros, cycles, and scheduling to your applications. Please contact LEAP Technologies on how we can help you get maximized throughput with flexible pipetting automation solutions.

Contact LEAP

Contact LEAP

For additional information about LEAP and the PAL Platform, please contact LEAP Technologies.

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