Experiment: Caltech Atmospheric Chamber_20140805_Tridecane/hydrogen peroxide_Hydroxyl radical_No Seed_Dry
Experiment
Name: Caltech Atmospheric Chamber_20140805_Tridecane/hydrogen peroxide_Hydroxyl radical_No Seed_Dry
Date: 2014-08-05
Organization
Caltech Atmospheric Chamber
Chamber
Near/Far Bag 2012-2015 (Tran)
Experiment Set
MPAN, Methacrolein, Isobutyraldehyde, and 231MBO photoxidation experiments
Goals
This experiment was done as a control to the MPAN experiments, because MPAN was introduced together with tridecane solvent.
Summary
The reaction produced reasonable amount of SOA through dry nucleation, although a third of the amount compared to the MPAN experiments.
Additional Notes
We introduce tridecane in the same way as the MPAN in tridecane (same temperature, flow, time) so its contribution to SOA can be subtracted out.Experiment Details
Categories:
- Gas phase chemical reaction
- Aerosol formation
Relative Humidity: 4
Seeded Experiment: No
Fuchs Adjusted Surface Area:
Condensation sink rate coefficient: 4
Reaction type:
Oxidant Name: Hydroxyl radical
Initial Oxidant Concentration Value: 1.5e6 (molecules_per_cubic_centimeter)
RO2 Main Fate: HO2
RO2 Lifetime: (Seconds)
Pressure: 750 Torr
Data Sets
ID | Instrument | File | |
---|---|---|---|
3472 | CARMA SMPS |
140805_dma_total.csv
|
|
3473 | CIMS |
140805_CIMS.csv
|
|
3474 | O3NOxTRH |
140805_gas_analyzers.csv
|
|
3475 | CARMA SMPS _ Number Distribution |
140805_dma_wlcorr_Ndist.csv
|
Data Set plots
Experiment Set Details
Name: MPAN, Methacrolein, Isobutyraldehyde, and 231MBO photoxidation experiments
Time format and units: Experiment time (minutes, local)
Description:
Photoxidation of synthesized methacryloyl peroxynitrate (MPAN) to understand its pathways of SOA formation, leading to 2-methylglyceric acid in the particle phase. It is hypothesized that MPAN produces an unstable intermediate called HMML (hydroxymethyl methyl-a-lactone) that ring opens when it hits a surface, with co-product NO3. Some experiments were done with alpha-pinene as an NO3 scavenger, with the production of pinene nitroxy hydroperoxide (PNP, m/z 316 C10H17NO5) evidence of the alpha-pinene + NO3 chemistry. Photoxidation of methacrolein (MACR) was performed for comparison. Photooxidation of 2-methyl-but-3-ene-1-ol (231MBO) and isobutyraldehyde were performed because they are (or can produce) analogous compounds that will give insight into the oxidation mechanism. Experiments were mainly performed dry and with no seeds, although 2 experiments were performed on with varying particle liquid water on ammonium sulfate (AS) seeds. Note that particle wall loss has already been applied to SMPS data, but the raw data are also provided as well as the wall loss kinetic parameters.
Collaborators:
- Tran Nguyen UC Davis
- Paul Wennberg Caltech
Contacts
Principal investigator:
John H Seinfeld
Phone: (626) 395-4635
E-mail: seinfeld@caltech.edu
OrcID: https://orcid.org/0000-0003-1344-4068
Data Manager:
Stephanie Kong
Phone: 626-395-3194
E-mail: wkong@caltech.edu
140805_Timeline.csv
Timeline
Local time (hh:mm) | Action (Time zero is "Lights On" time) |
10:35 | Chamber is at 15degC and stable |
10:40 | Injecting H2O2 (110 uL of 50%wt or appox 2ppm) |
11:50 | Injecting tridecane (similar method as with MPAN injections but using pure tridecane) |
13:00 | Lights on 100% |
17:10 | Lights off |
18:10 | Filter collection |
8:40 | (next day) stop filter collection |
Citations
Characterizations
2013-12-13 (#28)
Particle Loss Characterizations:
2013-03-06 (#29)
Vapor Loss Characterizations:
(None)
Chamber Details
Name: Near/Far Bag 2012-2015 (Tran)
Volume in cubic meters: 27
Shape: Rectangular Prism
Surface area in cubic meters: 41.8
Flow Mode: Batch
Flow through rate in liters per minute:
Body Material: Teflon
Body thickness: 50
Replacement date:
Replacement frequency: As needed
Cleaning method:
Flushing with air
o3 background: 0.5 ppb
nox background: 0.1 ppb for Near, > 0.1 ppb for Far
Particle background in micrograms per cubic meter: < 0.1 ug/m3
Air filtration method: Custom Filter
Mixing method: 0
Mixing method material:
Temparature Control: Yes
Temparature measurements recorded: Yes
Temparature range (min degrees celcius): 20
Temparature range (max degrees celcius): 45
Humidity Control: Yes
Humidity Measurements Recorded: Yes
Relative humidity range (min percent): 5
Relative humidity range (max percent): 100
Particle experiment capability: 1
Lights: Yes
Light source type(s):
UVA Black Lamps
Supplemental information: https://www.worldscientific.com/doi/abs/10.1142/9789813147355_0001
Additional Notes: