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Transcript of 1 Pulping and Bleaching PSE 476/Chem E 471 Lecture #9 Kraft Pulping Lignin Reactions Lecture #9...
1
Pulping and BleachingPSE 476/Chem E 471
Lecture #9Kraft Pulping Lignin Reactions
Lecture #9Kraft Pulping Lignin Reactions
2
Agenda
• Lignin Reactions» Cleavage of -O-4 linkages
- Effect of phenolic group- Effect of nucleophile (OH-/HS-)
» -O-4, -carbonyl» -1 linkages» -5 linkages» 4-O-5, 5-5, - linkages» Condensation Reactions
• Lignin Reactions» Cleavage of -O-4 linkages
- Effect of phenolic group- Effect of nucleophile (OH-/HS-)
» -O-4, -carbonyl» -1 linkages» -5 linkages» 4-O-5, 5-5, - linkages» Condensation Reactions
3
Kraft Reactions of -O-4 Linkage (Free Phenolic Hydroxyl)
Vinyl Ether
For
mal
dehy
de
Notice that the -O-4 bond isnot cleaved.
HCHO+
O
OCH3
CH
HC O
CH3O
-
H
-O
OCH3
CH
C O
CH3OH2COH
H
O
OCH3
CH
HC O
CH3OH2CO
O
OCH3
CH
C O
CH3OH2COH
OH-
O
OCH3
CH O R
HC O
CH3OH2COH
-
HO-
HO-
Notes
4
Reaction of Phenolic -aryl Ether: HS-
This reaction is very rapid resultingin the cleavage of the -O-4 linkage.
Notes
O
OCH3
HC
HC
CH2OH
O
CH3O
O
OCH3
HC
HC
CH2OH
O
CH3O
O
OCH3
HC
CH2OH
O
CH3O
OH HSCHS
O
OCH3
HC
HC
CH2OH
CH3OS
O+
OR
5
Reactions of -O-4 Linkages: Etherified Phenolic Hydroxyl/Benzyl hydroxyl
• Reaction with OH-
» The -O-4 linkage is cleaved but only very slowly. This reaction requires elevated temperatures.
» Cleavage of the -O-4 linkage generates a free phenolic hydroxyl.
• Reaction with HS-» HS- will only react with
groups containing a free phenolic hydroxyl so therefore there is not cleavage.
• Reaction with OH-
» The -O-4 linkage is cleaved but only very slowly. This reaction requires elevated temperatures.
» Cleavage of the -O-4 linkage generates a free phenolic hydroxyl.
• Reaction with HS-» HS- will only react with
groups containing a free phenolic hydroxyl so therefore there is not cleavage.
H2COH
O
OCH3
C
R
H
HC
+
CH3O
O-
H2COH
O
OCH3
C
R
H O R
HC O
CH3O
OH-
H2COH
O
OCH3
C
R
H O R
HC O
CH3O
OH-
HS- No Reaction
* Reaction mechanisms on following pages
6
Reaction of Nonphenolic -aryl Ether: OH-
In this reaction, the -O-4 linkage is cleaved. This is,however, a very slow reaction.
Notes
O
OCH3
HC
HC
CH2OH
O
CH3O
OHOR
O
OCH3
HC
CH2OH
O
CH3O
CHO
O
OCH3
HC
HC
CH2OH
O
O
CH3O
+
Further Degradation
7
Reaction of Nonphenolic -aryl Ether: HS-
OR
CH3O
CH OH
HC O
H2COH
HS(-)
No Reaction
No phenolic hydroxyl = no reaction
8
A Quick Review
OH- (alone) HS-(with OH-)
Phenolic Hydroxyl
No cleavageFormation of vinyl ethers.
Rapid cleavage
Non Phenolic
Slow cleavage No cleavage
Reaction of -O-4 ether linkedstructure with benzyl hydroxyl
9
Reactions of -O-4 Linkages: Alpha Carbonyl Group
• These reactions occur whether there is a free or etherified phenolic hydroxyl group.
• Reaction with OH-
(alone).» No reaction
• Reaction with OH-/HS-
» Rapid cleavage of linkage.
» Mechanism on next page
• These reactions occur whether there is a free or etherified phenolic hydroxyl group.
• Reaction with OH-
(alone).» No reaction
• Reaction with OH-/HS-
» Rapid cleavage of linkage.
» Mechanism on next page
HC
O
OCH3
CH
HC
CH2OH
HC
HOH2C
OR
OCH3
O
10
Alkaline PulpingActivation of Carbon by Carbonyl
O
OCH3
C
C
O
OR
CH2OH
H
HO-
O
OCH3
C
C
O-
OR
CH2OH
O
OCH3
C
C
O
OR
CH2
A: Keto-enol tautomerism
A
11
Alkaline Pulping -O-4 , -carbonyl
Keto-enolisomerization
O
OR
OCH3
CH
HC
H2COH
O
OH(-)
C O
OH
OR
OCH3
C
H2COH
(-)
SH
O
OR
OCH3
C
H2C
OC
O
OR
OCH3
C
HC O
CH2S(-)
+O
OR
OCH3
C
CHS
CH2
O(-)
HS-
OH-
12
Alkaline Pulping Mechanismsβ-1/free phenolic (OH- alone)
O-
OCH3
HC OH
HC
OCH3
OH
H2C OH
OH-
O
OCH3
HC
HC
OCH3
OH
H2C OH
O-
OCH3
HC
HC
OCH3
OH
O-
OCH3
HC
C
OCH3
OH
H2C OH
Stilbene structures
No fragmentation of dimer
+ CH2O
13
-1 Reaction Mechanisms (OH- alone)
O
OCH3
HC
HC
OCH3
OH
H2C O H
OH-
O-
OCH3
HC
HC
OCH3
OH
+ CH2O
14
-1 Reaction Mechanisms (OH- alone)
O
OCH3
HC
C
OCH3
OH
H2C OH
H
HO-
O-
OCH3
HC
C
OCH3
OH
H2C OH
Formation of Stilbene
15
Alkaline Pulping Mechanisms-5 /free phenolic (OH- alone)
OH
OCH3
HC
HC
HOH2C
OCH3
R
OHO-
O
OCH3
HC
HC
HOH2C
OCH3
R
O-
O-
OCH3
HC
C
HOH2C
OCH3
R
O-
O-
OCH3
HC
HC OCH3
R
O-
Formation ofStilbenes
No fragmentation of dimerMechanism similar to -1
16
Retroaldo Cleavage of Carbon-Carbon Bonds
• Groups containing double bonds (vinyl ethers, stilbenes, QM) will cleave very slowly under alkaline conditions through a retro aldo reaction. This reaction requires elevated temperatures.
• Groups containing double bonds (vinyl ethers, stilbenes, QM) will cleave very slowly under alkaline conditions through a retro aldo reaction. This reaction requires elevated temperatures.
HC
C O-
+ H+
- H+
C
C+ H2O
- H+
H2C
C O
OCH3
O
C
+ H2O
- H+
O-
OCH3
O
CH
O-OCH3
C O
17
Alkaline Pulping Mechanisms-1 /free phenolic (OH- /HS-)
O
OCH3
HC
HC
OCH3
OH
H2C OH
HS-
HO-
O-
OCH3
HC
HC
OCH3
OH
H2C OH
S-
O
OCH3
HC
C
OCH3
OH
H2C
2HS-
OH-
O-
OCH3
HC
HC
OCH3
OH
H2C S-
S-
No fragmentationof dimer
18
Alkaline Pulping Mechanisms-5 /free phenolic (OH- /HS-)
OH
OCH3
HC
HC
HOH2C
OCH3
R
O
OH-
HS- Same reactions as forThe -1 linkage
19
Alkaline Pulping Mechanisms-1/etherified phenolic OH (HS-/OH-)
OCH3
OCH3
HC OH
HC
OCH3
OH
H2C OH
OH-
OCH3
OCH3
HC OH
HC
OCH3
OH
H2C OH
OH-
HS-
20
Alkaline Pulping Mechanisms-5/etherified phenolic OH (HS-/OH-)
OH-
HS-
OH-
OCH3
OCH3
HC
HC
HOH2C
OCH3
R
O
OCH3
OCH3
HC
HC
HOH2C
OCH3
R
O
21
Alkaline Pulping Mechanisms-5 (HS-/OH-)
OCH3
O
OCH3
CH3O
R
R
O-
O
OCH3
CH3O
R
R
HS-
OH-
HS-
OH-
22
Alkaline Pulping Mechanisms-5 (HS-/OH-)
O- O-
OCH3CH3O
R R
OCH3 OCH3
OCH3CH3O
R R
HS-
OH-
HS-
OH-
23
Alkaline Pulping Mechanisms Methyl Aryl Ether Cleavage
+ HS- + HO
-
O
OCH3
[O-] O
O-
[O-]
+ CH3S- + H2O
O
OCH3
[O-] O
O-
[O-]
+ CH3SCH3+ CH3S-
2CH3S- + 1/2 O2 + H2O CH3S SCH3 + 2HO
-
Notes
24
Alkaline PulpingLignin Carbohydrate Bonds
• Esters and glycosidic linkages easily cleaved.
• Ether linkages.» Free phenolic
hydroxyl: easily cleaved.
» Etherified phenolic hydroxyl: no reaction.- Residual lignin
problem.
• Esters and glycosidic linkages easily cleaved.
• Ether linkages.» Free phenolic
hydroxyl: easily cleaved.
» Etherified phenolic hydroxyl: no reaction.- Residual lignin
problem.
OH
C
OCH3
O CH
CHO
CH2OH
O
O
OH
OHCH3O
Xyl-Xyl-Xyl
O
Benzyl Ester Linkage
O
OH
OH
OH
C
OCH3
O CH2
O
H
CHO
CH2OH
Xyl-Xyl-Xyl
Benzyl Ether Linkage
OCH2OH
OH HOOMan-Glu-Man
O
CHO
CH2OH
C
OCH3
H
Phenolic Glycosidic Linkage
25
Lignin Condensation
• We have been discussing the reactions of quinone methides with OH- and HS-. In solution, these structures along with resonance structures of the phenoxy anion can react with lignin structures. This type of reaction is known as condensation and is a problem because it increases the molecular weight of lignin and forms a difficult to cleave bond.
• We have been discussing the reactions of quinone methides with OH- and HS-. In solution, these structures along with resonance structures of the phenoxy anion can react with lignin structures. This type of reaction is known as condensation and is a problem because it increases the molecular weight of lignin and forms a difficult to cleave bond.
O-
OCH3
CH2OH
O
OCH3
CH2OH
-
O
OCH3
CH2OH
-
O
OCH3
CH2
26
Condensation Reactions (C5)
• As shown below, a quinone methide can react with a C5 anion to form a new carbon-carbon bond. Remember, this new bond is not cleaved during pulping. The result of this reaction is higher molecular weight lignin (this is bad).
• As shown below, a quinone methide can react with a C5 anion to form a new carbon-carbon bond. Remember, this new bond is not cleaved during pulping. The result of this reaction is higher molecular weight lignin (this is bad).
CH2
O
CH3O
O
OCH3
CH2OH
-
O-
CH3O
H2C
O
OCH3
CH2OH
H
O-
CH3O
H2C
O-
OCH3
CH2OHOH-
CH2
O
CH3O
O
OCH3
CH2OH
-
O-
CH3O
H2C
O
OCH3
CH2OH
H
O-
CH3O
H2C
O-
OCH3
CH2OHOH-
27
Condensation Reactions (C1)
• C1 is another site for condensation reactions forming an -1 linkage. In was seen with the -1 free radical coupling reaction, this requires side chain elimination.
• C1 is another site for condensation reactions forming an -1 linkage. In was seen with the -1 free radical coupling reaction, this requires side chain elimination.
O
OCH3
HC
O
OCH3
HC O H(-)
+
HC
OCH3
OH
OH
OCH3
28
Condensation with Formaldehyde
• Formaldehyde, which is formed from carbons during the formation of vinyl ethers and stilbenes, will cross link 2 molecules. The linkage formed is known as a diphenyl methane linkage (same linkage in -1 & -5).
• Formaldehyde, which is formed from carbons during the formation of vinyl ethers and stilbenes, will cross link 2 molecules. The linkage formed is known as a diphenyl methane linkage (same linkage in -1 & -5).
CH3O
O
R
(-) C
H
O
H
CH2
R
O
CH3OCH3O
O
R
CH2 OH
(-)
O
OCH3
R
(-)
O
OCH3
R
CH2
R
O
CH3OH
(-)
CH3O
O
R
CH2
O
OCH3
R
CH2
R
O
CH3O
(-) (-)
(-)
OH
29
Reactivities of Lignin Linkages
Free Phenolic OH Etherified Phenolic OH
Linkage OH- HS- OH- HS-
-O-4 No Yes Yes No/Yes*
-O-4 Yes No No No
-5, -, -1, 5-5, 4-O-5
No No No No
Free Phenolic OH Etherified Phenolic OH
Linkage OH- HS- OH- HS-
-O-4 No Yes Yes No/Yes*
-O-4 Yes No No No
-5, -, -1, 5-5, 4-O-5
No No No No
Short Note
* No if hydroxyl, yes if carbonyl
