optimizing your purification system for highest recovery · 2016. 6. 14. · optimizing your...
TRANSCRIPT
![Page 1: Optimizing Your Purification System for Highest Recovery · 2016. 6. 14. · Optimizing Your Purification System for Highest Recovery Presented by: Udo Huber • 1995 PHD in organic](https://reader031.vdocument.in/reader031/viewer/2022011914/5fc1fd66effedb35f6151224/html5/thumbnails/1.jpg)
Slide 1Chairperson: John Vis
Optimizing Your Purification System for Highest Recovery
Presented by: Udo Huber
• 1995 PHD in organic chemistry from the University Karlsruhe/Germany• 1996 - 97 Postdoctoral fellow at the University of Hawai’i at Manoa• Since 1997 Application Chemist with HP/Agilent• Since 2000 Senior Application Chemist for the purification system and valve solutions
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Slide 2Chairperson: John Vis
Contents
• Delay volume calibrationFraction delay sensor
• What is detector delay?Signal filtering
• What is system delay?The CAN network: Integrated intelligence
• Influence of delay volume on recoveryDelay volume control with optimized design/setup
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Slide 3Chairperson: John Vis
Purification system schematics
Fraction container
Detector
Divertervalve
Waste
VD2 / tD2
Fraction collector
VD1 / tD1
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Slide 4Chairperson: John Vis
Fraction delay – UV-based fraction collection system
min0 1 2 3 4 5 6 7 8 9
mAU
200
600
1000
1400
t0 tE
Fractioncontainer
Detector
Divertervalve
Waste
VD2 / tD2
Fraction collector
VD1 / tD1
Start of fraction collection ⇒ when start of peak arrives at diverter valveStart of fraction collection: t0 + tD1
End of fraction collection ⇒ when end of peak arrives at needle tipEnd of fraction collection: tE + tD1 + tD2
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Slide 5Chairperson: John Vis
Fraction delay sensor (FDS)
The FDS is a detector in the fraction collector. In combination with UV and MS detection of a peak, it allows accurate calculation ofthe time delay between peak detection and fraction collection.
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Slide 6Chairperson: John Vis
Fraction delay sensor
The delay calibrant contains two compounds. One is detectable by UV and by the FDS and the other is detectable by the MS. With no column in place the compounds do not separate. The time difference between their detection in the UV, FDS and MS allows accurate calculation of the delay volumes.
Light source: GaAs Red LED Lamp (λmax = 654 nm)Detection: Si Photo detector (λ = 580 - 700nm)Delay Calibrant: Fast Green FCF for UV detector and FDS(G1946-85020) Caffeine for MSD
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Slide 7Chairperson: John Vis
Fraction delay – UV-based fraction collection system
Diverter valveDetector
min0 1 2 3 4 5 6 7 8 9
mAU
200
600
1000
1400
min0 1 2 3 4 5 6 7 8 9
FDS
0.2
0.6
1.0
1.4
tD UV
FDS
VD1/tD1Inject delay calibration sample (no column)
Waste
VD2/tD2VD3: Internal volume of
FDS, tubing etc. VD3/tD3
Fraction delay sensor (FDS)
VD1 = (v • tD) - VD2 - VD3• v: flow rate•
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Slide 8Chairperson: John Vis
Fraction delay – MS-based fraction collection system
Divertervalve
min0 1 2 3 4 5 6 7 8 9
mAU
0200
600
1000
1400
min0 1 2 3 4 5 6 7 8 9
TIC
020000
60000
100000
140000
min0 1 2 3 4 5 6 7 8 9
FDS
00.2
0.6
1.0
1.4
tD
UV
MSD
FDS
Make-uppumpDetector
Inject delay calibration sample(no column)
Splitter MSD
Waste
Fraction delay sensor (FDS)
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Slide 9Chairperson: John Vis
ChemStation software –delay calibration
Set up your purification method and save it (MBFC only!)
Go to ChemStation Diagnosis view
Start Delay Volume Calibration
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Slide 10Chairperson: John Vis
ChemStation software –delay calibration
Use a pre-defined calibration method (or select you own method using the Change method button), put the Delay Sensor Calibrant(Part No. G1946-85020) in vial position 1 and press Continue
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Slide 11Chairperson: John Vis
ChemStation software –delay calibration
Review the results and transfer them automatically using the Calibrate button
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Slide 12Chairperson: John Vis
ChemStation software –delay calibration
Calibration done and result transferred to the fraction collector configuration
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Slide 13Chairperson: John Vis
Break Number 1
Please type your
question into the
Question Box at any time
during the presentation.
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Slide 14Chairperson: John Vis
What is a detector delay time?
min2.5 2.6 2.7 2.8
mAU
0
5
10
15
20
25
min2.5 2.6 2.7 2.8
mAU
0
5
10
15
20
25
Signal filtering
Signal measured in the detector Signal displayed in ChemStation
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Slide 15Chairperson: John Vis
What is a detector delay time?
min2.5 2.6 2.7 2.8
mAU
0
5
10
15
20
25 1. Datapoints measured2. Datapoints averaged3. Datapoint drawn
min2.5 2.6 2.7 2.8
mAU
0
5
10
15
20
25
Delay between actual measurement point and point drawn in software⇒ Detector delay
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Slide 16Chairperson: John Vis
Detector delay times for different filtering/peakwidth settings
Peakwidth (filtering) must be smaller then peakwidth of narrowest peak in chromatogram. Otherwise 2 peaks could be “filtered” together to give a single peak.
DAD/MWD VWDPeakwidth[min]
Responsetime [s]
Signaldelay [s]
Peakwidth[min]
Responsetime [s]
Signaldelay [s]
< 0.01 0.1 0.05 < 0.005 < 0.1 0.07> 0.01 0.2 0.15 > 0.005 0.12 0.14> 0.03 0.5 0.5 > 0.01 0.25 0.29> 0.05 1.0 1.25 > 0.025 0.5 0.58> 0.10 2.0 2.75 > 0.05 1 1.31> 0.20 4.0 5.9 > 0.1 2 2.84> 0.40 8.0 11.9 > 0.2 4 5.97> 0.85 16.0 23.9 > 0.4 8 12.3
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Slide 17Chairperson: John Vis
Detector delay time
• Additional detector delay time for DAD, MWD and VWD is automatically adjusted by the detector firmware.
• tdetector < tD1
• Recommendation: Peakwidth should be set to the second-lowest setting for the UV detectors.
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Slide 18Chairperson: John Vis
What is a system/computer delay?
1. Detector sends signal to PC (LAN)2. PC processes signal and acknowledges a peak (PC)3. PC gets flow rate from pump (PC)4. PC calculates delay time (PC)5. Sends signal to fraction collector (LAN)
Fraction Collector
Detector
Sampler
Pumps
Detector
LAN network
Additional system/computer delay due to:• LAN traffic• CPU usage
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Slide 19Chairperson: John Vis
The CAN network: Integrated intelligence
1. Detector detects peak2. FC acknowledges DAD peak (CAN)
- Looks up DAD delay volume (CAN)- Gets current flow rate from pump (CAN)- Calculates DAD delay time
3. Delays for delay time4. STARTS FRACTION COLLECTION (CAN)
Fraction Collector
Detector
Sampler
Pumps
Computer only:• monitors• displays results
LAN network
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Slide 20Chairperson: John Vis
Break Number 2
Please type your
question into the
Question Box at any time
during the presentation.
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Slide 21Chairperson: John Vis
Dispersion for different delay volumes
min0 0.5 1 1.5
0
50
100
150
200
250DAD Signal
FDS Signal
+ 0 µl + 25 µl + 50 µl + 100 µl+ 150 µl+ 200 µl
Fractioncontainer
Detector
Divertervalve
Waste
VD2 / tD2
Fraction collector
VD1 / tD1
Delay volume added with 0.25 mm I.d. tubing
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Slide 22Chairperson: John Vis
Peak loss due to dispersion
min0 0.5 1 1.5
0
50
100
150
200
250DAD Signal
FDS Signal
+ 0 µl+ 50 µl + 100 µl
+ 200 µl
Delay volume added with 0.25 mm i.d. tubing
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Slide 23Chairperson: John Vis
Resolution and peak width
min0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8
0
50
100
150
200
250
300
350
DAD Signal
FDS SignalIncreasing capillary length
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Slide 24Chairperson: John Vis
Resolution and peak width
0 50 100 150 200 250
Added delay vol. [µl]
0.25 mm I.d.
0.8 mm I.d.
Reso
lutio
n
Resolution at detector
Resolution at fraction collector
• Standard fraction collector AS with 0.25 mm i.d. capillary from DAD to AFC gives point at 0 delay volume added
• Delay volume was enhanced using a 0.25 mm i.d. capillary or a 0.8 mm i.d. capillary, respectively.
• Dispersion with 0.8 mm i.d. capillary higher for same delay volume due to squared influence of capillary radius on dispersion.
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Slide 25Chairperson: John Vis
Does it really matter?
"If they [the chemists] want to purify a sample they'll know which one is best! The choice is a system that can actually separate and purify or one that sends e-mails with data the chemists can manipulate."
“[My customer] is achieving recoveries right in line with […]’s presentation [..] (not quite 110%). His quote: ”You guys don't know what you have here" was based …”
“Using a combined inject/collector seriously compromises the pluming of the system and leads to additional broadening and therefore loss of recovery. At […] we see 90% recovery with your system and 60% with others.”
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Slide 26Chairperson: John Vis
Optimizing your purification system
• Correct delay volume calibrationFraction delay sensor vs. stop-watch method
• No timing error due to detector delayFirmware adjustment
• No timing error due to PC/LAN delayDirect LAN connection, intelligent CAN network
• Minimizing dispersion with optimized delay volumeDelay volume control with optimized design/setup