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Gas, Cloudwater, and Rain Hydrogen Peroxide and Methylhydroperoxide Measurements in RICO Brian G. Heikes, Center for Atmospheric Chemical Studies, Graduate.

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Presentation on theme: "Gas, Cloudwater, and Rain Hydrogen Peroxide and Methylhydroperoxide Measurements in RICO Brian G. Heikes, Center for Atmospheric Chemical Studies, Graduate."— Presentation transcript:

1 Gas, Cloudwater, and Rain Hydrogen Peroxide and Methylhydroperoxide Measurements in RICO Brian G. Heikes, Center for Atmospheric Chemical Studies, Graduate School of Oceanography, University of Rhode Island Daniel W. O’Sullivan, Chemistry Department, US Naval Academy

2 RICO Peroxide Component Goals of our proposal Role of the peroxides  Aqueous phase oxidation of SO 2  Using peroxide measurements to constrain gas phase oxidation of SO 2  Using the peroxides to help constrain cloud age and/or entrainment Measurement techniques Hypotheses we hope to evaluate

3 Goals of the RICO Peroxide Component to understand the impact of H 2 O 2 and CH 3 OOH on aqueous SO 2 oxidation in wet haze, and cloud, and the evolution of aerosol sulfate, to evaluate the H 2 O 2 and CH 3 OOH ratio as a diagnostic of precipitation or in-cloud chemistry, to help constrain estimates of SO 2 oxidation in cloud free air by constraining other photochemical oxidants like hydroxyl radical, HO, and to understand H 2 O 2 and CH 3 OOH distributions in clear and cloudy air in the marine boundary layer and lower free troposphere, place H 2 O 2 and CH 3 OOH chemical constraints on cloud parcel age, place H 2 O 2 and CH 3 OOH chemical constraints on FT-MBL entrainment and cloud entrainment.

4 Aqueous phase oxidation of SO 2 by H 2 O 2 H 2 O 2 is the principle oxidant for aqueous SO 2 at pH < 5, forming non seasalt sulfate (NSS). The original aerosol CCN is altered by the NSS.  Increasing the number of particles  Increasing the water content of a particular aerosol Cloud chamber studies have demonstrated aerosol growth by in cloud reactions of SO 2 and H 2 O 2 and O 3, Caffrey et al. (2001).

5 Marine Boundary Layer gas phase oxidation of DMS and SO 2. Use peroxide measurements to constrain levels of hydroxyl radicals, HO and HO 2.  Methylhydroperoxide is produce via hydroxyl radical oxidation of methane.  Hydrogen peroxide is produced by HO 2 bi-reaction, and its subsequent photolysis generates hydroxyl radical. Gas phase oxidation of DMS and SO 2 by hydroxyl radical leads to the formation of non-seasalt aerosol sulfate.

6 Link between DMS oxidation, formation of SO 2 and sulfuric acid in the marine boundary layer near Christmas Island in the Equatorial Pacific as HO radical increases with the sun rise, Davis et al. (1999). Symbols are in situ measurements, and the lines are the photochemical model output.

7 Peroxide Measurements Gas phase measurements  Air is sub-sampled with a forward facing diffuser style inlet. The gas phase peroxides are partitioned in to an aqueous collection solution in a concurrent-flow collection coil.  Peroxides are separated via HPLC and quantified by post column derivatization to form a fluorescent dimmer.  H 2 O 2 and CH 3 OOH are separated in about 2 minutes Detection Limit for H 2 O 2 is 15 pptv. Detection Limit for CH 3 OOH is 25 pptv. Counter-flow Virtual Impactor samples will also be analyzed for the peroxides.  Determine peroxide content of cloudwater and precipitation.  Examine the gas-aqueous phase partitioning of the peroxides.

8 Hypotheses to be tested H1: “The aqueous phase gas-to-particle conversion is rapid enough in some clouds to substantially increase the amount of soluble material in cloud droplets, thus enhancing the activity of CCN upon evaporation.” H2:“Cloud age, tau c, is constrained by chemical observations.” H3: “Free-troposphere marine-boundary-layer entrainment velocity, we, and cloud entrainment, epsilon c, are constrained by chemical observations.” H4: “The occurrence of recent precipitation in an air parcel’s history is detectable from observations of H 2 O 2 and CH 3 OOH.”

9 Relationship between the peroxides and HO radical in the marine boundary layer near Christmas Island in the Equatorial Pacific, Chen et al. (2001). Symbols are in situ measurements and the smooth lines are the photochemical model output. Predicted H 2 O 2 and CH 3 OOH depend on the predicted HO and HO 2 levels, allowing the observed peroxide levels to constrain the HO and HO 2 radical levels.

10 Gas phase Peroxide Measurements Gas phase peroxides will be collected from a forward facing diffuser style inlet. Peroxides are continuously partitioned in to an aqueous collection solution base on Henry’s Law. The collection solution is sampled and injected in to an HPLC for peroxide separation and quantification. Collect a 30 second sample every 2 minutes minutes when operating two HPLC systems.

11 Peroxide Analytical System Peroxides are separated on a C-18 column, and undergo a post column derivatization with p-hydroxyphenyl acetic acid to form a fluorescent dimmer. H 2 O 2 and CH 3 OOH are separated in about 2 minutes  Detection Limit for H 2 O 2 is 15 pptv.  Detection Limit for CH 3 OOH is 25 pptv. Samples from the CVI inlet will also be analyzed for the peroxides.

12 Counterflow Virtual Impactor (CVI) Cloud droplets (8-50  m) are impacted into dry nitrogen gas and evaporated. Interstitial particles and gases excluded. Volatile gases and non-volatile residual particles are measured. Lyman-  hygrometer CCN Counter Impactor & Filters for Elec. Mic. Optical Particle Counter CN Counter H 2 O 2 sensor

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