shimadzu -короткий курс по газовой хроматографии
DESCRIPTION
Shimadzu -короткий курс по газовой хроматографии. Обучение.TRANSCRIPT
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Basics in Gas Chromatography
GC-Training
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Basics in Gas Chromatography
2
Chromatography is a technique for separating a mixture of substances, using different moving speeds of the substances
(Translation from Brockhaus 2005)
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GC-System
3
Gas Supply
Pneumatic Controller
InjectorDetector
Column Oven
Column
Data Processing
Chromatogram
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Pneumatic Control
4
Gas Supply
Pneumatic Controller
PressureControl
Pressure Control
Flow Control
Velocity Control
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Pneumatic Control
5
Gas Supply
Pneumatic Controller
PressureControl
Column
Pneumatic Control
Column = Tube = Restrictor
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Flow rate and Linear Velocity:
6
1. Flow rate [cm3/min],Typically related to Column Outlet under SATP (Standard Ambient Temperature and Pressure)
2. Average Linear Velocity [cm/sec]
ū = L /tu
L = length of column [cm]tu = retention time for an unretained peak [sec]
Flow [cm3/min]
1,013 bar, 25°C
ū[cm/sec]
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Flow rate and Linear Velocity:
7
Linear Velocity can be set as a control parameter for GC-2010 Series, GC-2014 and GC2025
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Headline for slide (Text only)
8
Gas Supply
Pneumatic Controller
Injector
Packed Column Injector and Widebore
Split-/Splitless Injector
Programmed TemperatureVaporisation and On ColumnInjector (PTV/OCI)
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Split-/Splitless Injector
9
Split Injection Systemis to inject a samplewith high concentration
Only a defined partof the sample gothrough the column.the rest go throughthe Split out
The purge flow is topurge the septum
The total flow is the summery of purge, split and column flow
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Split-/Splitless Injector
10
Splitless Mode
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Split-/Splitless Injector
11
Two Types of Liner
Split LinerSplitless Liner(WBI)
25mm25mm
5,5mm
Very Important !
The glaswool must be In the correct possition
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Injection Efficiency
12
Bad sample transfer on the column can be due to an overloaded liner. Important is the volume of the evaporated sample not liquid.
Typical liner volume might vary from 1.0 to 0.1mlSPL-2010 Plus liner 0.86ml
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Wide Bore Injector
13
Direct Injection SystemIn a direct injection system,a wide-bore column is used. Nearly the entire amount of sample injectedis inrtoduced on the column. This usually resultsin better sensitivity than narrow-bore columns with split injections. However,peak shapes are broad, which decreases resolutionand can lead to a higher S/N ratio. The direct injection system uses a WBI (wide-bore injection)injection port. When WBIis specified, DIRECT injection mode is automatically used and split mode is not available onthe [INJ] key main screen.
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OCI/PTV (On Column/Programmable Temperature Injector)
14
In the case of OCI you have to use the adapter for OCI
To install the column you have to fix the graphite ferrule with the corect lenght. Then insert the column until it reaches the top end of the adapter for OCI
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A short coffee break
15
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GC-System
16
Gas Supply
Pneumatic Controller
Injector
Column Oven
Column
GC- Column
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Gas Chromatography Separation
17
Mobile Phase Stationary Phase
Compound
Interaction of Forces
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GC Columns:
18
Packed Column Capillary Column
Stainless SteelGlassTeflon
Typical size:1/8 or 1/4 inch o.d.1 to 3 m lengh
10 to 60 ml/min flowrate
Fused SilicaStainless Steel Glass
Typical size:0.25 or or 0.32 mm i.d.10 to 100 m lengh (30m typ.)0.5 to 3 ml/min flowrate
0.1 mm i.d. for Fast GC0.53 mm i.D. for Wide Bore
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Packed vs Capillary
19
Analysis of light oilAnalysis of light oil
Capillary
Packed
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Influence of temperature on separation efficiency
20
tem
pera
tur
e
tem
pera
tur
e
Isothermal AnalysisTemperature Programming
Analysis
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Classification of Capillary Colunms
21
Mobile Phase Stationary Phase- Gas - Liquid (GLC)- Gas - Solid (GSC)
• Application Fields:(Examples)
Environment Chemistry Petrochem Food Pharmacy Drugs …………………..
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Capillary columns
22
Capillary column types
• WCOT = Wall coated open tubular columns (GLC)
• PLOT = Porous layer open tubular columns (GSC)
• SCOT = support coated open tubular columns(GLC) (Special PLOT columns, stationaly phase is
additionally coated with a special liquid)
Polymid
Fused Silica
stat. Phase
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Classification of WCOT Capillary Colunms
23
Bore,I.Dmm Length (m)
Film Thickness um
Application
0.1 10-20 0.1-0.4 High Separation, Fast analysis, very small column load
0.25 25-100 0.25-1.0 High separation, generally used in split type analysis
0.32 25-60 0.25-3.0 Used in splitless, on-column injection method
0.53 10-60 0.25-6.0 Separation ability equal to that of packed column. Large column load, on-column injection method
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Capillary Column
24
Gas - Liquid - Chromatography (GLC)
Carrier Gas
Different compounds should be separated on the GLC Capillary Column
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Phase Distribution
25
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Capillary Column
26
Gas - Liquid - Chromatography (GLC)
Carrier Gas
Separation Mechanism:
1.Vapor Pressure
2.Polarity
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Theory for GLC
27
Henry´s Law:
pi = p0i . xsi . i = 1: No interaction of compounds due to Polarity = konstant: Non saturated Solution = f(xi): High Concentration of Compounds In the mixture (saturation)
p0i
i
Vapor Pressure
Polarity
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Optimizing Capillary Column Parameters
28
-Stat. Phase-Length-Inner Diameter (I.D.)-Film I.D.
SelectivityResolutionAnalysis TimeSampleamount for
Injection
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Stationary Phase
29
Phase Chemical name Synonyms (Supplier) Typical Application OV-101 100% Methyl SP-2100 Hydrocarbons
Fraktioning Gasoline and DieselOV-1 DB-1, SPB-1, RTX-1 Triglyceride
100% Methyl CP-SIL 5SE 30
SE-52 95% Methyl CP-SIL 8, SPB-5 Universal (e.g. PAH, PCB, LHKW)5% Phenyl DB-5, RTX-5
SE-54 94% Methyl5% Phenyl1% vinyl
OV-1701 86% Methyl DB-1701, SPB-7 Aromatic Compounds, Phenoles7% Phenyl CP-SIL 19 PCB, Pesticides, LHKW7% Cyanopropyl
OV-210 50% Methyl DB-21050% Triflourpropyl RSL-400 same as before
OV-225 50% Methyl DB-225,BP-15 same as before25% Phenyl CP-SIL 4325% Cyanopropyl
CW 20M Polyethylenglycol DB-WAX, Supelcowax 20 Alcoholes, Flavors, FAME, Free Fatty AcidsPEG 20000 BP-20
FFAP PEG 20000 AT-1000,SP-1000 same as before
Non Polar
Medium Polar
High Polar
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Stationary Phase defines Selectivity
30
SE-54
OV-210
OV-1701
CW 20M
Incr
easi
ng P
olar
ity
OV-1
1 n-C102 n-C113 N-Octanol4 2,6-Dimethyleaniline5 2,6-Dimethylephenol6 Dicyclohexyleamine
7,8,9 Methyle-Esters from C10,C11,C12
Grob-Mix Compounds
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Resolution RS and Column
31
N
N+1
tN
Wb(N)
tmobil
Inject
Optimizing Resolution by Colunm Parameters:
Column LengthI.D. of the ColumnThickness of inner Film
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Resolution vs. Column Length
32
50 m
25 m
12 m
5 m
2.5 m
Resolution Length
Increasing the Column Length is less efficient due to Peak Resolution
Column Length [m]
Res
olut
ion
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Theoretical Plates of a Column
33
Theor. Plates: N = 16 x (tN /wb)2
The number of Theoretical Platesis always related to a reference compound, e.g. C12
tmobile = 1,00 mintR = 4.803 mintN = 3.803 minWb = 0.049 min
Example: N = 96.000
Wb
tR
Describing Separation Efficiency
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HETP
34
HETP = L/N
L = Length of a Column
HETP = Height Equivalent of a Theoretical Plate
HETP is a suitable Parameter describing the efficiency of separation
Decreasing value for HETP = Increasing separation efficiency
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Linear Velocity vs. HETP
35
Van Deemter Curve
HETP = A + B/u + Cu
A: Eddy Diffusion (konstant, only Packed Column)
B: Axial Diffusion of Molecules
C: Molecules transferring Phases
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HETP and Column I.D.
36
Dec
reas
ing
I.D. =
Dec
reas
ing
HE
TP
With smaller Column I.D. the influence of higher flow rates is much less, due to faster transfer of sample molecules between the Stationary- and Gasphase
Most Effective
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Example – Using different Columns
37
C36
C32C24C20 C28
C30
Base With C40
Red: 0.53mm I.D. , 0.25m Film , 15 m
Green: 0.22mm I.D. , 0.25m Film , 25m
Conclusuion:
Much more Separation Efficiency with 0,22 mm I.D.
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Film Thickness of Stationary Phase
38
Polymid
Fused Silicastat. Phase
dc
df
Phase Ratio ß dc/4df Volume ratio gas volume to liquid volume
The relevance of the Film Thickness is depending on the Column I.D. Phase Ratio
Tendency:
ß is highGood separation for high boiling Componds
ß is lowGood separation for low boiling Componds
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39
Film Thickness of Stationary Phase
df (m)0,2
dc (mm)0,25 0,32 0,53
0,1 500 625 800 1325
0,2 250 313 400 663
0,33 152 190 250 400
0,5 100 125 160 265
1 63 80 133
2 40 66
Phase Ratios for different df , dc
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40
Film Thickness of Stationary Phase
ß Application
< 100
Compounds with high Vapor Pressure (Low boiling)
100 - 400 Intermediate Range
> 400
Compounds with low Vapor Pressure (High boiling)
For rough Orientation
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HETP and Carrier Gas
41
Hydrogen
Helium
NitrogenConclusion:
Approximately no difference for minimum HETP comparing the Gases
Major differences due to higher flowrates
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Example – Normal GC vs. Fast GC
42
FWHM = 3 s
n-de
cane
n-oc
tano
ln-
unde
cane
2,6
dim
ethy
lphe
nol
Dec
anoi
c ac
id m
ethy
l eth
er
Une
cano
ic a
cid
met
hyl e
ther
Dod
ecan
oic
acid
met
hyl e
ther
dicy
cloh
exyl
amin
e DB-5 MS: 30m, 0.25 mm, 0.25 m
140°C 1 min, 10°C/min to 140°C 1 min, 10°C/min to 280 °C,2 min280 °C,2 min
He 40 cm/s, split 20:1He 40 cm/s, split 20:1
15 min
FWHM = 0.48s
RTX-5 : 10m, 0.1 mm, 0.4 m
140°C, 1 min140°C, 1 min60°C/min to 280 °C, 2min60°C/min to 280 °C, 2min
H2 120 cm/s, diluted 10:1, H2 120 cm/s, diluted 10:1, split 200:1split 200:11,75 min
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Sample Amount and Column I.D.
43
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Sample Amount and Column I.D.
44
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45
Finish