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![Page 1: Charring Minimization in Thermal Analysis of Aerosol Carbon Jian Zhen Yu and Qianfeng Li Department of Chemistry Hong Kong University of Science & Technology.](https://reader036.fdocuments.in/reader036/viewer/2022072006/56649d1f5503460f949f2c42/html5/thumbnails/1.jpg)
Charring Minimization in Thermal Analysis of Aerosol Carbon
Jian Zhen Yu and Qianfeng LiDepartment of Chemistry
Hong Kong University of Science & Technology
EC/OC workshop, Durango, CO
March 2003
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Thermal conditions that maximize OC removal / minimize charring of OC
Low-temperature oxidation (Cadle et al., 1983; Cachier et al.,
1989)
Flash heating (Tanner et al., 1982)
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Determination of the temperature upper-limit for low-temperature oxidation
Criterion: EC remains intact.
We need EC materials that are free of OC and representative of aerosol EC .
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Thermal Creation of EC-Only Test Samples from Atmospheric Aerosols
Carrier gas Temperature (oC) Time (sec)
HeHe-1He-2
50600800
Purging online60300
Thermal conditions for creation of EC-only (mixture of PEC and native aerosol EC) samples
Successful creation of EC-only samples is evidenced by:In He atmosphere at temperatures as high as 800oCFID signal remains at baseline.No discernable increase in filter laser transmittance is observed.
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Thermal evolution of an EC-only sample in 2% O2/He
0 200 400 600 800 1000 12000
100
200
300
400
500
600
700
800
900
Hong Kong sample
Te
mp
era
ture
(o C
)
Time (sec)
FID response
TransmittanceTemperature
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Percentage of EC Evolved as a Function of Oxidation Temperature
0 100 200 300 400 500 600 700 8000
20
40
60
80
100
Pe
rce
nta
ge
EC
Evo
lve
d (
%)
Temperature (oC)
Qingdao-1 (China) Qingdao-2 (China) Nanjing-1 (China) Nanjing-2 (China) Hong Kong-1 Hong Kong-2 Hong Kong-3 Hong Kong-4 Korea-1 Korea-2
350 oC
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Earlier Work Using a Low-temperature Oxidation Step in thermal analysis:
Optimal temperature for OC/EC: 300-350 oC, (Dod et al., 1978; Ellis et al., 1984; Ohta and Okita, 1984).
2-step method for OC/EC (Cachier et. al., Tellus, 1989, 41B, 379).
340 oC, pure O2 , precombustion 2 hours. Pure graphite was intact.
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Flash Heating
Kinetics Competition:
Vaporization versus Decomposition
Ref: Buehler R.J., et.al. J.Am. Chem.Soc. “Proton Transfer Mass Spectrometry of Peptides. A Rapid Heating Technique for Underivatized Peptides Containing Arginine”, 1974, 96, 3990
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Thermal Methods Used for Comparison IMPROVE NIOSH Optimized-1 Optimized-2
He Purging online (10s)
O2/He 200s, 350 oC 200s, 350 oC
He-1 180 s, 120 oC 60 s, 250 oC 10s, purging 10s, purging
He-2 180 s, 250 oC 60 s , 500 oC 60 s, 500 oC
He-3 180 s, 450 oC 60 s , 650 oC 60 s, 650 oC
He-4 180 s, 550 oC 90 s, 850 oC 90 s, 850 oC 200 s, 850 oC
He-5 Purging, 60 s
O2/He-1 240 s, 550 oC 30 s, 650 oC 30 s, 650 oC 30 s, 650 oC
O2/He-2 210 s, 700 oC 30 s, 750 oC 30 s, 750 oC 30 s, 750 oC
O2/He-3 210 s, 800 oC 60 s, 850 oC 60 s, 850 oC 60 s, 850 oC
O2/He-4 120 s, 940 oC 120 s, 940 oC 120 s, 940 oC
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Combination of low-temperature oxidation and flash heating forms least charring from water-soluble aerosol OC
0%
10%
20%
30%
40%
50%
Sucrose
UST-1 HK
UST-2 HK
QD China
NJ-1China
NJ-2 China
MK HK
RU HK
TW HK
PE
C/W
SO
C
IMPROVE
NIOSH
Optimized-1
Optimized-2
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low
highC loading
0%
10%
20%
30%
40%
50%
Kosan-2
Kosan-1
UST-7
Kosan-3
UST-5
UST-6
UST-3
UST-4
UST-2
QD UST-1
PE
C/T
C
IMPROVE
NIOSH
Optimized-1
Optimized-2
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low
highC loading
0%
10%
20%
30%
40%
50%
60%
70%
Kosan-2
Kosan-1
UST-7
Kosan-3
UST-5
UST-6
UST-3
UST-4
UST-2
QD UST-1
PE
C/O
C
IMPROVE
NIOSH
Optimized-1
Optimized-2
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Transmittance Increase before the OCEC split in the He/O2 step
-0.05
0.00
0.05
0.10
0.15
0.20
0.25
0.30
0.35
0.40
0.45
Kosan-2
Kosan-1
UST-7
Kosan-3
UST-5
UST-6
UST-3
UST-4
UST-2
QD-1UST-1
QD-2
A1=
log
(I-i
nit
ial/I
-O2)
IMPROVE
NIOSH
Opitimized-1
Optimized-2
Smaller transmittance increase is expected with lower amount of charring.
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Deviation of EC measurements by non-optimal methods from the optimized method
-5%
0%
5%
10%
15%
20%
Kosan-2
Kosan-1
UST-7
Kosan-3
UST-5
UST-6
UST-3
UST-4
UST-2
QD UST-1
D E
C/T
C
IMPROVE
NIOSH
Optimized-1