Effects of shingle absorptivity, radiant barrier emissivity, attic
An Instrument for Real Time Speciation Atmospheric ......Species Ligand Absorptivity LM-1cm-1...
Transcript of An Instrument for Real Time Speciation Atmospheric ......Species Ligand Absorptivity LM-1cm-1...
![Page 1: An Instrument for Real Time Speciation Atmospheric ......Species Ligand Absorptivity LM-1cm-1 Additional Reagents Chromium VI Diphenylcarbazide 40,000 @ 540 nm H2SO 4, (KMnO 4) Copper](https://reader035.fdocuments.net/reader035/viewer/2022071517/613b91aef8f21c0c826911e0/html5/thumbnails/1.jpg)
![Page 2: An Instrument for Real Time Speciation Atmospheric ......Species Ligand Absorptivity LM-1cm-1 Additional Reagents Chromium VI Diphenylcarbazide 40,000 @ 540 nm H2SO 4, (KMnO 4) Copper](https://reader035.fdocuments.net/reader035/viewer/2022071517/613b91aef8f21c0c826911e0/html5/thumbnails/2.jpg)
An Instrument for Real Time Speciationof Water Soluble Tracers in
Atmospheric Particulate Matter
Rodney J. Weber Georgia TechJames J. Schauer UW-MadisonMartin M. Shafer UW-Madison
RD 83283501
1
![Page 3: An Instrument for Real Time Speciation Atmospheric ......Species Ligand Absorptivity LM-1cm-1 Additional Reagents Chromium VI Diphenylcarbazide 40,000 @ 540 nm H2SO 4, (KMnO 4) Copper](https://reader035.fdocuments.net/reader035/viewer/2022071517/613b91aef8f21c0c826911e0/html5/thumbnails/3.jpg)
Project GoalConfigure, validate and deploy cost-effective,
robust "real-time" (1h) instruments to measure water-soluble components of PM2.5 at network sites.
(A) Inorganic species: Methods to replace IC.(B) New techniques for online measurements of
metals.• Combine with existing WSOC method.
Analytical Method Development
Integration with PILS, Field Trials
& Ambient Studies
2
![Page 4: An Instrument for Real Time Speciation Atmospheric ......Species Ligand Absorptivity LM-1cm-1 Additional Reagents Chromium VI Diphenylcarbazide 40,000 @ 540 nm H2SO 4, (KMnO 4) Copper](https://reader035.fdocuments.net/reader035/viewer/2022071517/613b91aef8f21c0c826911e0/html5/thumbnails/4.jpg)
Study Overview – PM 2.5 Component Matrix
Module or Analyte Group
Bulk Components
(Major Ions)
Cations & Anions
(Source Tracers)
Redox Active
Metals
Water Soluble
Organic Carbon
Ammonium (NH4+) Calcium (Ca 2+) Iron (Fe) WSOC
Nitrate (NO3-) Potassium (K+) Manganese (Mn)
Sulfate (SO42+) Sodium (Na+) Copper (Cu)
Chloride (Cl-) Chromium (Cr)
� Develop an “on-line” compatible analytical method
� Validate the new methods using real-world filter-ba sed samples.
� Conduct field trials of the on-line implementation for selected species.
GOALS - for each species:
3
![Page 5: An Instrument for Real Time Speciation Atmospheric ......Species Ligand Absorptivity LM-1cm-1 Additional Reagents Chromium VI Diphenylcarbazide 40,000 @ 540 nm H2SO 4, (KMnO 4) Copper](https://reader035.fdocuments.net/reader035/viewer/2022071517/613b91aef8f21c0c826911e0/html5/thumbnails/5.jpg)
Analytical Methods Explored
1 meter Waveguide
Capillary Cell
Miniature Fiber-Optic Spectrophotometer
Long Optical Path Spectrophotometry with Liquid Wave Guides (LWCC)
Ion-Selective Electrodes(ISE)
For Both Methods
� Low Sample Volume Requirements
� Minimal Sample Pretreatment
� Low Cost
� Field Portable & Real-Time Configurable
4
![Page 6: An Instrument for Real Time Speciation Atmospheric ......Species Ligand Absorptivity LM-1cm-1 Additional Reagents Chromium VI Diphenylcarbazide 40,000 @ 540 nm H2SO 4, (KMnO 4) Copper](https://reader035.fdocuments.net/reader035/viewer/2022071517/613b91aef8f21c0c826911e0/html5/thumbnails/6.jpg)
Filter and Online System for Collecting Particles
5
Filter Collection
Off-line Water-Extractionand Analysis
Particle-Into-Liquid Sampler
Automated On-line Analysis
![Page 7: An Instrument for Real Time Speciation Atmospheric ......Species Ligand Absorptivity LM-1cm-1 Additional Reagents Chromium VI Diphenylcarbazide 40,000 @ 540 nm H2SO 4, (KMnO 4) Copper](https://reader035.fdocuments.net/reader035/viewer/2022071517/613b91aef8f21c0c826911e0/html5/thumbnails/7.jpg)
Species Method Investigated
Field FilterValidation
Field PILSValidation
Acceptable for Filter
Acceptable for PILS
Ammonium ISE Yes No Likely Likely
Nitrate UV-Optical Yes Planned? Yes Likely
Sulfate# Attempted No No No No
Calcium ISE No No Maybe Maybe
Potassium ISE Yes Attempted Yes Yes
Sodium ISE Yes In Progress Yes Likely
Chloride ISE No No Maybe Unlikely
(A) Cations & AnionsSummary of Method Evaluation Status
#A barium sulfate precipitation - ligand exchange met hod was evaluated, however the method proved unrelia ble.
� Acceptable for Filter: Method appropriate for typically-loaded 12-24 hr filter collection.
� Acceptable for PILS: Method appropriate for shorter-term (hours) on-line use in typical atmosphere.
Maybe = in certain high-concentration atmospheres. 6
![Page 8: An Instrument for Real Time Speciation Atmospheric ......Species Ligand Absorptivity LM-1cm-1 Additional Reagents Chromium VI Diphenylcarbazide 40,000 @ 540 nm H2SO 4, (KMnO 4) Copper](https://reader035.fdocuments.net/reader035/viewer/2022071517/613b91aef8f21c0c826911e0/html5/thumbnails/8.jpg)
S3
S2
S1
DI
ISE in Flow cell
Waste
Ion meter (V)
Syringe pump
AB
CD
E
(A) Schematic Diagram of Laboratory System for Eval uatingIon-Selective Electrode Performance
7
![Page 9: An Instrument for Real Time Speciation Atmospheric ......Species Ligand Absorptivity LM-1cm-1 Additional Reagents Chromium VI Diphenylcarbazide 40,000 @ 540 nm H2SO 4, (KMnO 4) Copper](https://reader035.fdocuments.net/reader035/viewer/2022071517/613b91aef8f21c0c826911e0/html5/thumbnails/9.jpg)
(A) Example of ISE Method Cal’s: Na + Summary
� Linear over full range of
environmental concentrations
� Sensitivity likely adequate
for hourly measurements in
some environments (e.g.
marine influenced)
Optimized Na ISE ResponseWithout ISA
[Na] µg/L
1 10 100 1000 10000
mV
80
100
120
140
160
180
200
220
240
260
280
ISA = Ionic Strength Adjuster
slope = 54.9 mv/decade (r2 = 0.9999)
(0.2 to 200 µg/filter)
Field validation deployment scheduled for Los Angeles in May/June 2010.
8
![Page 10: An Instrument for Real Time Speciation Atmospheric ......Species Ligand Absorptivity LM-1cm-1 Additional Reagents Chromium VI Diphenylcarbazide 40,000 @ 540 nm H2SO 4, (KMnO 4) Copper](https://reader035.fdocuments.net/reader035/viewer/2022071517/613b91aef8f21c0c826911e0/html5/thumbnails/10.jpg)
Madison, WI Ambient Aerosol
IC (mg/L)
0.0 0.1 0.2 0.3 0.4 0.5 0.6
UV
(m
g/L)
0.0
0.1
0.2
0.3
0.4
0.5
0.6
Slope = 0.97Intercept = 0.055
r2 = 0.65
Atlanta, GA Ambient Aerosol
IC (mg/L)
0.0 0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6
UV
(m
g/L)
0.0
0.2
0.4
0.6
0.8
1.0
1.2
1.4
1.6
Slope = 0.92Intercept = 0.039
r2 = 0.96
Nitrate by the UV-method (with interference correct ion) vs IC on extracts of ambient aerosols from Madison, WI (24 h r – 12 m3 samples) and Atlanta, GA. Room for improvement, but reason able agreement.
(A) Example of Optical Method Cal’s: Nitrate –Comparison with Filter-Based IC Measurements
Opt
ical
, (m
g/L)
Opt
ical
, (m
g/L)
9
NO3-
NO3-
![Page 11: An Instrument for Real Time Speciation Atmospheric ......Species Ligand Absorptivity LM-1cm-1 Additional Reagents Chromium VI Diphenylcarbazide 40,000 @ 540 nm H2SO 4, (KMnO 4) Copper](https://reader035.fdocuments.net/reader035/viewer/2022071517/613b91aef8f21c0c826911e0/html5/thumbnails/11.jpg)
On-line dataAcquisition
Drains
Transport Liq. Flow(0.10 mL/min)
Vacuum Pump
PILS
AmbientAir
16 Lit/min HEPAfilter
Particle sizeSelector (PM 2.5)
Peristalticpump
Waterfor steam
(1.4 mL/min)
Liquidfilter
DI
Waste
Waste
SampleVial
Ion meter
RS-232connection
Ion selective Electrode
Syringe pumpDiluted
std
Waste
A
BC
D
On-line dataAcquisition
Drains
Transport Liq. Flow(0.10 mL/min)
Vacuum Pump
PILS
AmbientAir
16 Lit/min HEPAfilter
Particle sizeSelector (PM 2.5)
Peristalticpump
Waterfor steam
(1.4 mL/min)
Liquidfilter
DI
Waste
Waste
SampleVial
Ion meter
RS-232connection
Ion selective Electrode
Syringe pumpDiluted
std
Waste
A
BC
D
(A) Schematic Diagram of Field Deployment of PILS Ion-Selective Electrode System (e.g., K +)
10
![Page 12: An Instrument for Real Time Speciation Atmospheric ......Species Ligand Absorptivity LM-1cm-1 Additional Reagents Chromium VI Diphenylcarbazide 40,000 @ 540 nm H2SO 4, (KMnO 4) Copper](https://reader035.fdocuments.net/reader035/viewer/2022071517/613b91aef8f21c0c826911e0/html5/thumbnails/12.jpg)
(A) Preliminary Field Testing of K + ISE
Prescribed Burn: Albany GA March 2008
Paper in prep. 2010
Site of high [K+] and test of dynamic range
11
K+ ISE tracks smoke concentrations, but possible
issues with NH4+ Interferences
![Page 13: An Instrument for Real Time Speciation Atmospheric ......Species Ligand Absorptivity LM-1cm-1 Additional Reagents Chromium VI Diphenylcarbazide 40,000 @ 540 nm H2SO 4, (KMnO 4) Copper](https://reader035.fdocuments.net/reader035/viewer/2022071517/613b91aef8f21c0c826911e0/html5/thumbnails/13.jpg)
(A) Field Deployment of Sodium and CalciumIon-Selective Electrodes (ISE) (in-series)
Sodium ISE
Calcium ISE
Comparison of PILS-ISE vs PILS-IC during CalNex Jun e 201012
![Page 14: An Instrument for Real Time Speciation Atmospheric ......Species Ligand Absorptivity LM-1cm-1 Additional Reagents Chromium VI Diphenylcarbazide 40,000 @ 540 nm H2SO 4, (KMnO 4) Copper](https://reader035.fdocuments.net/reader035/viewer/2022071517/613b91aef8f21c0c826911e0/html5/thumbnails/14.jpg)
(A) Summary: Current Status of Method Development
Module or Analyte Group
Bulk Components
(Major Ions)
Cations & Anions
(Source Tracers)
Redox Active
Metals
Water Soluble
Organic Carbon
Ammonium (NH4+) Calcium (Ca 2+) Iron (Fe) WSOC
Nitrate (NO3-) Potassium (K+) Manganese (Mn)
Sulfate (SO42+) Sodium (Na+) Copper (Cu)
Chloride (Cl-) Chromium (Cr)
PILS deployment
completed or planned
Successful implementation of method with
filter-based samples
Successful method
development
13
![Page 15: An Instrument for Real Time Speciation Atmospheric ......Species Ligand Absorptivity LM-1cm-1 Additional Reagents Chromium VI Diphenylcarbazide 40,000 @ 540 nm H2SO 4, (KMnO 4) Copper](https://reader035.fdocuments.net/reader035/viewer/2022071517/613b91aef8f21c0c826911e0/html5/thumbnails/15.jpg)
(B) Trace Metal Chemistries Adapted for the LWCC
Species Ligand Absorptivity LM-1cm-1 Additional Reagents Chromium VI Diphenylcarbazide 40,000 @ 540 nm H2SO4 , (KMnO4) Copper II + I Bathocuproine-DS 14,200 @ 484 nm NH2OH-HCl Iron II (III) Ferrozine 25,300 @ 562 nm (NH2OH-HCl) Manganese FAD ~30,000 @ 450 nm EDTA , HA , NaOH
Methods are oxidation state sensitive and can be adapted to quantify multiple redox states of a given metal.
14
![Page 16: An Instrument for Real Time Speciation Atmospheric ......Species Ligand Absorptivity LM-1cm-1 Additional Reagents Chromium VI Diphenylcarbazide 40,000 @ 540 nm H2SO 4, (KMnO 4) Copper](https://reader035.fdocuments.net/reader035/viewer/2022071517/613b91aef8f21c0c826911e0/html5/thumbnails/16.jpg)
MetalLWCC Method
DevelopedField FilterValidation
Field PILSValidation
Acceptable for Filter
Acceptable for PILS
Cr Yes No No No No
Cu Yes Yes No Yes Maybe
Mn Yes Yes No Yes Likely
Fe Yes Yes Yes Yes Yes
(B) Trace Element (redox active metals)Summary of Method Evaluation Status
� Acceptable for Filter: Method appropriate for typically-loaded 12-24 hr filter collection.
� Acceptable for PILS: Method appropriate for shorter-term (hours) on-line use in typical atmosphere.
Maybe = in certain high-concentration atmospheres.
15
![Page 17: An Instrument for Real Time Speciation Atmospheric ......Species Ligand Absorptivity LM-1cm-1 Additional Reagents Chromium VI Diphenylcarbazide 40,000 @ 540 nm H2SO 4, (KMnO 4) Copper](https://reader035.fdocuments.net/reader035/viewer/2022071517/613b91aef8f21c0c826911e0/html5/thumbnails/17.jpg)
(B) V1: PILS-LWCC for On-line Measurement of Water- Soluble Fe(II): Non-Continuous Gas Segmented Flow
16
![Page 18: An Instrument for Real Time Speciation Atmospheric ......Species Ligand Absorptivity LM-1cm-1 Additional Reagents Chromium VI Diphenylcarbazide 40,000 @ 540 nm H2SO 4, (KMnO 4) Copper](https://reader035.fdocuments.net/reader035/viewer/2022071517/613b91aef8f21c0c826911e0/html5/thumbnails/18.jpg)
(B) V2: PILS-LWCC for On-line Measurement of Water Soluble Fe(II): Continuous Sample/Water Blank Flow
17
![Page 19: An Instrument for Real Time Speciation Atmospheric ......Species Ligand Absorptivity LM-1cm-1 Additional Reagents Chromium VI Diphenylcarbazide 40,000 @ 540 nm H2SO 4, (KMnO 4) Copper](https://reader035.fdocuments.net/reader035/viewer/2022071517/613b91aef8f21c0c826911e0/html5/thumbnails/19.jpg)
Highly linear calibration
Good analytical precision <3%(std vs water blank)
(B) WS_Fe(II) Calibration and Liquid Flow Analytica l Method Performance
Rastogi et al, ES&T 2009
18
Fe(II) Concentration, µg/L
Time, sec
Abs
orba
nce
Abs
orba
nce
Instrument Version 1
![Page 20: An Instrument for Real Time Speciation Atmospheric ......Species Ligand Absorptivity LM-1cm-1 Additional Reagents Chromium VI Diphenylcarbazide 40,000 @ 540 nm H2SO 4, (KMnO 4) Copper](https://reader035.fdocuments.net/reader035/viewer/2022071517/613b91aef8f21c0c826911e0/html5/thumbnails/20.jpg)
(B) Urban and Biomass Burn Trial Studies: Verification and WS_Fe(II) Results
Prescribed Burn: Albany GA March 2008
Urban AtlantaDearborn MIJan 13 - Feb 10, 2008
EPRI AMIGASJeff. St. Aug 2008
Fire Station 82007-2010
Selected 1-mnth studies in different seasons
19
![Page 21: An Instrument for Real Time Speciation Atmospheric ......Species Ligand Absorptivity LM-1cm-1 Additional Reagents Chromium VI Diphenylcarbazide 40,000 @ 540 nm H2SO 4, (KMnO 4) Copper](https://reader035.fdocuments.net/reader035/viewer/2022071517/613b91aef8f21c0c826911e0/html5/thumbnails/21.jpg)
(B) WS_Fe(II) Method Validation: PILS vs. Teflon Filter
Urban Atlanta (6/08, 8/08, 6/09, 1/10) + Prescribed Burn
Teflon filter extract with same analysis
PILS_LWCC WS_Fe(II)agrees with 24-hTeflon filter WS_Fe(II).
20
No FS-8 transient events
![Page 22: An Instrument for Real Time Speciation Atmospheric ......Species Ligand Absorptivity LM-1cm-1 Additional Reagents Chromium VI Diphenylcarbazide 40,000 @ 540 nm H2SO 4, (KMnO 4) Copper](https://reader035.fdocuments.net/reader035/viewer/2022071517/613b91aef8f21c0c826911e0/html5/thumbnails/22.jpg)
(B) Winter in DearbornWS_Fe(II) and Industrial Sources
• WS_Fe(II) high during low wind speeds (local sources)
• WS_Fe(II) vs EC R2 = 0.03 and vs OC R2 = 0.12, not mobile sources.
• No correlation between WS_Fe(II) and PM2.5 mass (R2=0.004), no association with any other significant PM2.5 component.
WS_Fe(II)
21
![Page 23: An Instrument for Real Time Speciation Atmospheric ......Species Ligand Absorptivity LM-1cm-1 Additional Reagents Chromium VI Diphenylcarbazide 40,000 @ 540 nm H2SO 4, (KMnO 4) Copper](https://reader035.fdocuments.net/reader035/viewer/2022071517/613b91aef8f21c0c826911e0/html5/thumbnails/23.jpg)
Wind Speed vs Direction
WS_Fe(II) vs. Direction
WS_Fe(II) and industrial sources to the south
(B) Winter in DearbornWS_Fe(II) and Industrial Sources
Oakes et al, JGR, 2010 22
Origin of Enhanced WS_Fe(II)
![Page 24: An Instrument for Real Time Speciation Atmospheric ......Species Ligand Absorptivity LM-1cm-1 Additional Reagents Chromium VI Diphenylcarbazide 40,000 @ 540 nm H2SO 4, (KMnO 4) Copper](https://reader035.fdocuments.net/reader035/viewer/2022071517/613b91aef8f21c0c826911e0/html5/thumbnails/24.jpg)
(B) WS_Fe(II) Seasonal Variability In Atlanta
Transient Events
Fall Summer
Season Site % <LOD Mean Med Stdev N
Fall FS8 4.6 34.8 24.2 30.5 1401
Spring FS8 27.0 14.8 10.5 13.7 456
Summer FS8 36.7 13.4 6.9 28.3 2050
Summer JST 49.7 5.1 4.6 3.6 1278
•Concentrations in ng m-3
Oakes et. al., 2010 23
![Page 25: An Instrument for Real Time Speciation Atmospheric ......Species Ligand Absorptivity LM-1cm-1 Additional Reagents Chromium VI Diphenylcarbazide 40,000 @ 540 nm H2SO 4, (KMnO 4) Copper](https://reader035.fdocuments.net/reader035/viewer/2022071517/613b91aef8f21c0c826911e0/html5/thumbnails/25.jpg)
In Summer Total WS_Fe is higher
Mostly in form of WS_Fe(III) ?
Fe2+ + H2O2 � Fe(III) + • OH +OH-
Fe2+ + HO2-H+ � Fe(III) + H2O2
Fe2+ + O3-H+ � Fe(III) + OH* + O2
Etc . . .
Fe3+-Org + hv � Fe2+ + Org*Fe(III) + O2
- � Fe(II) + O2
Fe(III) + S(IV)-O2 � Fe(II) + S(VI)Etc . . .
Oxidation
Reduction
(B) WS_Fe(II) Seasonal Variability In Atlanta
SEARCH Jeff. St.
Winter
Summer
Fall
Summer
WS_Fe(II)
Total WS_Fe: Fe(II)+Fe(III)
24
![Page 26: An Instrument for Real Time Speciation Atmospheric ......Species Ligand Absorptivity LM-1cm-1 Additional Reagents Chromium VI Diphenylcarbazide 40,000 @ 540 nm H2SO 4, (KMnO 4) Copper](https://reader035.fdocuments.net/reader035/viewer/2022071517/613b91aef8f21c0c826911e0/html5/thumbnails/26.jpg)
(B) WS_Fe(II) Diurnal Trends in Atlanta
•Photo-reductive processes do not impact the net con centration in Atlanta ? Possible red-ox chemistry (e.g. re-ox idation)?
BUT NO EVIDENCE FOR A DAY/NIGHT PATTERN
Oakes et. al., 2010
25
![Page 27: An Instrument for Real Time Speciation Atmospheric ......Species Ligand Absorptivity LM-1cm-1 Additional Reagents Chromium VI Diphenylcarbazide 40,000 @ 540 nm H2SO 4, (KMnO 4) Copper](https://reader035.fdocuments.net/reader035/viewer/2022071517/613b91aef8f21c0c826911e0/html5/thumbnails/27.jpg)
(B) Evidence for WS_Fe(II) and Acid Aerosol Linkage
Oakes et. al., 2010
• Transient WS_Fe(II) tracked SO2 and SO42-
• Fresh (Plume A) vs. Aged (Plume B) Coal-fired power plant plume
• Evidence for acid-processing:• ∆WS_Fe(II) correlates better with ∆SO4
2- and particle acidity than ∆SO2
• Origin of iron particle? • Co-emitted and later processed• Other source of Fe.
AMIGAS
26
![Page 28: An Instrument for Real Time Speciation Atmospheric ......Species Ligand Absorptivity LM-1cm-1 Additional Reagents Chromium VI Diphenylcarbazide 40,000 @ 540 nm H2SO 4, (KMnO 4) Copper](https://reader035.fdocuments.net/reader035/viewer/2022071517/613b91aef8f21c0c826911e0/html5/thumbnails/28.jpg)
(B) Filter WS_Fe(II) Negative Artifacts In Unique Emissions?
27
FS-8 Atlanta June 2008
Transient Events (1 – 2 hrs) Associated with UF Particles
Filter WS_Fe(II) consistently lower than PILS C during unique transient eventsSampling artifact inherent with the filter-based method.
Also observed in spring 2010
![Page 29: An Instrument for Real Time Speciation Atmospheric ......Species Ligand Absorptivity LM-1cm-1 Additional Reagents Chromium VI Diphenylcarbazide 40,000 @ 540 nm H2SO 4, (KMnO 4) Copper](https://reader035.fdocuments.net/reader035/viewer/2022071517/613b91aef8f21c0c826911e0/html5/thumbnails/29.jpg)
(B) Current Status of Method Development(Redox Active Metals)
Module or Analyte Group
Bulk Components
(Major Ions)
Cations & Anions
(Source Tracers)
Redox Active
Metals
Water Soluble
Organic Carbon
Ammonium (NH4+) Calcium (Ca 2+) Iron (Fe) WSOC
Nitrate (NO3-) Potassium (K+) Manganese (Mn)
Sulfate (SO42+) Sodium (Na+) Copper (Cu)
Chloride (Cl-) Chromium (Cr)
PILS deployment
completed or planned
Successful implementation of method with
filter-based samples
Successful method
development
28
![Page 30: An Instrument for Real Time Speciation Atmospheric ......Species Ligand Absorptivity LM-1cm-1 Additional Reagents Chromium VI Diphenylcarbazide 40,000 @ 540 nm H2SO 4, (KMnO 4) Copper](https://reader035.fdocuments.net/reader035/viewer/2022071517/613b91aef8f21c0c826911e0/html5/thumbnails/30.jpg)
SummaryConfigure, validate and deploy cost-effective, robust
"real-time" (1h) instruments to measure water-soluble components of PM2.5 at network sites.
Inorganic Species: 1. Configuring and validating methods took longer than
expected, LODs in practice (PILS-ISE) are an issue. 2. Demonstrated PILS-ISE online method with K+ and Na+.
Nitrate PILS-Optical LWCC is also viable alternative to IC.
Water-Soluble Metals:1. PILS-Optical/LWCC for WS_Fe(II) is a proven robust method.
Application to other metals is straight-forward extension, but only viable in high concentration atmospheres (LOD limitations).
29
![Page 31: An Instrument for Real Time Speciation Atmospheric ......Species Ligand Absorptivity LM-1cm-1 Additional Reagents Chromium VI Diphenylcarbazide 40,000 @ 540 nm H2SO 4, (KMnO 4) Copper](https://reader035.fdocuments.net/reader035/viewer/2022071517/613b91aef8f21c0c826911e0/html5/thumbnails/31.jpg)
Products
30
8 Conference Presentations
Training of 2 Post Docs, 3 grad. students, undergra d assistants.
Current Status of Manuscripts1. Optical-LWCC Nitrate Method; Shafer et al., in progress.2. Optical-LWCC Cu Method; Shafer et al., in progress.3. ISE Method Overview Paper, Shafer et al., in prep. 4. PILS-ISE K+, Na+ paper (Revision to Rastogi et al. AS&T 2009).5. PILS-WS_Fe(II) Method; Rastogi et al. ES&T, 43, 2425-2430, 2009.6. WS_Fe(II) Ambient Results using Real-Time Data; Oakes et al., J.
Geophys. Res., 10.1029/2009JD012638, 2010.7. WS_Fe(II) transient events and filter artifacts, Oakes et al, in prep.8. Oakes et al. PhD Thesis