VOLATILITY MEASUREMENTS OFF LABORATORY GENERATED ORGANIC AEROSOLS WITH VOLATILITY TANDEM...
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![Page 1: VOLATILITY MEASUREMENTS OFF LABORATORY GENERATED ORGANIC AEROSOLS WITH VOLATILITY TANDEM DIFFERENTIALLY MOBILITY ANALYZER. VTDMA K. Salo*, Å. M. Jonsson,](https://reader035.fdocuments.net/reader035/viewer/2022062322/56649d2a5503460f949fe6cc/html5/thumbnails/1.jpg)
VOLATILITY MEASUREMENTS OFF LABORATORY GENERATEDORGANIC AEROSOLS WITH VOLATILITY TANDEM
DIFFERENTIALLY MOBILITY ANALYZER.
VTDMA
K. Salo*, Å. M. Jonsson, P. U. Andersson and M. HallquistDepartment of Chemistry, Atmospheric Science ,Göteborg University, Sweden*[email protected]
0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1
20 30 40 50 60 70 80 90 100
Temperature(°C)
No
rmal
ized
mo
dal
par
ticl
e d
iam
eter
(N
MD
p)
succinic
glutaric
adipic
pimelic
suberic
azelaic
sebacic
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Outline
• Background
• Secondary Organic Aerosols
• Analyze methods
• Results
• Other work
• Summary
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Background
• Coarse particles cause Lung an respiratory diseases.
• Fine particles cause increased cardiovascular mortality.
• Aerosols affect earths radiation budget.
• Alters cloud properties.
• Possible effect on formation of precipitation.
Health Climate
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Background
Example of aerosol Constituents.
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SecondaryOrganic Aerosols
Many different reactive
Volatile Organic
Compounds (VOC)
are emitted from
biogenic sources.
Ref from: Goldstein et al. 2007
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Analyze methods
• Scanning mobility particle sizer (SMPS).
DMACPC
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Analyze methods
CompressedDry
cleanair
Dilution volumeSilica diffusion
dryer
Aqueoussamplesolution
DMA 1TSI 3071
HEPAFilter
Pump
TSI 3071Aerosol
generator
Aqueoussample
Silica diffusiondryer
CharcoalFilter
RHmonitor
Oven3
Oven 4
Oven 1
Oven 2SMPS
TSI 3096
Scrubber
Scrubber
Scrubber
Scrubber
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Analyze methods
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Analyze methods
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Analyze methods
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Results
0.0
0.2
0.4
0.6
0.8
1.0
0 50 100 150 200
T (C°)
VFR
Glutaric
Pimelic
Pinonic
Ammonium sulphate
Ammonium nitrate
Volume Fraction Remaining (VFR) of selectedOrganic and inorganic compounds.
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ResultsMixtures of dicarboxylic acid/ammonium sulphate.
0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1
20 40 60 80 100 120 140 160 180
temperature (°C)
Vol
ume
fract
ion
rem
aini
ng (V
FR)
suberic/ammoniumsulphate
suberic
ammonium sulphate
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ResultsMixtures of dicarboxylic acid.
0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1
20 40 60 80 100 120 140 160 180 200 220
Temperature (°C)
Vol
ume
frac
tion
rem
aini
ng (
VF
R)
suberic/pimelic
suberic
pimelic
SOA
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Results
Assumptions:1. Spherical particles2. Surface free energy isotropic.3. Neglected latent heat effects.4. Partial pressure of evaporating species negligible.
J. Mönster et al. 2004.
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Results
Assuming Clausius-Clapeyron relationship betweenvapor pressure and temperature. ΔHvap/sub can be inferredFrom linear least squares analysis.
J. Mönster et al. 2004.
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Results
Bilde(296K)
y = -5114.3x + 14.158R2 = 0.9264
-4
-3.5
-3
-2.5
-2
-1.5
-1
-0.5
0
3.10E-03 3.15E-03 3.20E-03 3.25E-03 3.30E-03 3.35E-03 3.40E-03
1/T
log
P0
Glutaric acid
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Results
Bilde(296K)
Chattopadhyay(298K)
y = -4327.8x + 10.114R2 = 0.9087
-6
-5
-4
-3
-2
-1
0
2.90E-03 3.00E-03 3.10E-03 3.20E-03 3.30E-03 3.40E-03 3.50E-03
1/T
log
P0
Pimelic acid
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ResultsPhysical properties of used dicarboxylic acid (results and litterature data)
1 Calculated from linear least square analysis assuming Clausius – Clapeyron relationship (log p0 = ΔHvap/2.303 +C) 2 Extrapolated to 296K 3 Calculated from experimental data using Lennard-Jones parameters and surface free energy values from reference [4]. 4 Estimated Lennard-Jones parameters and surface free energy.
# C Name
(IUPAC) Melting
Point ( °C) ΔHvap 1
(kJ/mol) p°(296 K)2
(10-6Pa)
4 Succinic Acid
(Butanedioic Acid) 185-190
103 ± 2 [This work] 138 ± 11 [4]
70 [This work]3 46[4]
5 Glutaric Acid
(Pentadioic Acid) 95-99
95 ± 2 [This work] 91 ± 7[4] 102 [10]
67 ± 7 [9]
758 [This work] 910[4]
6 Adipic Acid
(Hexanedioic Acid) 151-153
95 ± 2 [This work]
154 ± 6 [4] 140±21[9] 118 [10]
115 [This work] 14 [4]
7 Pimelic Acid
(Heptanedioic Acid) 105-106
150 ± 2 [This work]
147 ± 11 [4] 178±27[9]
31[This work] 99 [4] 76 [9]
8 Suberic Acid
(Octandioic Acid) 143-144
100 ±2 [This work]
184 ± 12 [4] 148±22[9]
27 [This work] 1.2[4] 2.4 [9]
9 Azelaic Acid
(Nonanedioic Acid) 100-103
129 ± 2 [This work]
153 ± 24[4] 5.1 [This work]
6.0 [4]
10 Sebacic acid
(Decanedioic acid) 131-134 72 ± 2 [This work] 17 [This work]4
10 Pinonic acid 77 76-77 [This work] 30 [This work] 70 [10]
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Results
0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1
20 30 40 50 60 70 80 90 100
temperature (°C)
No
rmal
ized
mo
dal
par
ticl
e d
iam
eter
(NM
Dp
)
4,5 s
2,3 s
1,1 s
0,7 s
Heat transfer resistance problem?
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Results
-5
-4
-3
-2
-1
0
0.0027 0.0028 0.0029 0.003 0.0031 0.0032 0.0033 0.0034
1/T (1/K)
log
(p
0/P
a)
4.5 s
2.3 s
1.1 s
0.7 s
P0 independent of residence time.
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Results
0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1
20 30 40 50 60 70 80 90 100
Temperature (°C)
Nor
mal
ized
mod
al p
artic
le d
iam
eter
(N
MD
p)
0,2 µg.
0,5µg.
2 µg.
No saturation, independent of mass load
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ResultsPinonic acid
0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1
0 50 100 150 200 250 300
Temperature/C
NM
Dp
test9
test10
test12
test14
OOH
O
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ResultsPinonic acid (recryst.)
0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1
0 50 100 150 200 250
Temperature/C
NM
Dp
test20
test21
test17
OOH
O
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Other work
G-FROSTG-FROST Göteborg- FlowReactor for Oxidation Studiesat low TemperaturesTemperature range: 243-325KRH: GORE-TEX®Terpene: Diffusion vialOH-scavenger: wash bottle
O2/ N2 UV OzoneGenerator
RH-Meter
Dew Point Meter SMPS
SystemExhaust
Exhaust
LaminarFlow-tube
SlidingInjector
Organic Delivering
System
Temperature Controlled Housing
Humidifying System (Goretex))
Ozone Meter
PurifiedAir
N2
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Other worklimonene, 2-but, ozone
0
0,1
0,2
0,3
0,4
0,5
0,6
0,7
0,8
0,9
1
0 50 100 150 200 250 300
T(C)
VF
R
10%"
50%
80%
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Other work
61
61,5
62
62,5
63
63,5
64
64,5
65
2008-06-2416:48
2008-06-2419:12
2008-06-2421:36
2008-06-2500:00
2008-06-2502:24
2008-06-2504:48
2008-06-2507:12
2008-06-2509:36
2008-06-2512:00
Limone, 2-butanol, ozone at 10 % RH. SOA conc. From 4 – 20 μg/m3
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Summary• The VTDMA is proved to be an efficient and
useful tool to analyze the volatility properties and vapour pressures of different aerosol particles.
• The volatility (evaporation rates), heat of vaporization (ΔHvap) and vapour pressures obtained in this work is generally in line with earlier published results obtained from VTDMA experiments and other methods.
• Knowledge obtained from experiments with pure substances and simple mixtures makes it possible to evaluate more complex systems.
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Summary
• Water effect on SOA formation from monoterpenes. Possible effect on volatility.
• Clear masseffect on SOA volatility properties. Positive, Negative?
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The End