DataID |
Description |
Species |
PI |
Affiliation |
Room/Stack/Chamber |
GAS PHASE SPECIES |
FTIR |
Open path FTIR spectrometer, situated at the top of the stack. Can also sample room burns. |
CO, CO2, CH4, HCHO, NO, NO2,
NH3, HCN, HONO, etc. |
B. Yokelson, V. Selimovic |
U. Montana |
S |
AMLGAS |
Aerodyne Mobile Lab gas phase inlet (multiple instruments) |
CO, CH4, C2H6, C3H8, C2H2, HCHO, N2O, CH3OH, CO2, Total Hydrocarbons, NO, NO2 |
S. Herndon, T. Yacovitch, J, Roscolli, C. Daube |
Aerodyne |
C |
PTRMS |
Proton-Transfer Reaction Mass Spectrometry |
VOCs |
B. Knighton |
Montana State |
C |
ECHAMP |
C2H6 + NO chemical amplification |
HO2 + RO2 |
E. Wood |
Drexel |
C |
ICIMSAero |
Iodide ion chemical ionization mass spectrometry with FIGAERO |
VOCs, SVOCs, HONO, particle partitioning |
P. Croteau, P. Massoli |
Aerodyne |
C |
NO3CIMS |
NO3- ion chemical ionization mass spectrometry |
LVOCs |
P. Massoli |
Aerodyne |
S |
Ny |
Catalytic conversion of all N-containing species, NO (except N2 and N2O) |
Total Fixed Nitrogen |
J. Roberts/Y. Liu |
NOAA/ESRL, CU Denver |
S |
ACES |
Broadband cavity enhanced spectroscopy |
Glyoxal, Methylglyoxal, HONO, NO2_vis, NO2_UV |
K. Zarzana, S. Brown, R. Washenfelder |
NOAA/ESRL |
S |
H3OCIMS |
Various VOCs using chemical ionization mass spectrometer using H3O+ as reagent ion |
VOCs |
A. Koss, K. Sekimoto, C. Warneke, J. DeGouw |
NOAA/ESRL |
S |
H3OCIMS-no-ID |
Various unidentified masses using chemical ionization mass spectrometer using H3O+ as reagent ion |
VOCs |
A. Koss, K. Sekimoto, C. Warneke, J. DeGouw |
NOAA/ESRL |
S |
H3OCIMSPMF |
Positive matrix factorization of H3OCIMS indicating categories of VOC emission. |
VOCs |
A. Koss, K. Sekimoto, C. Warneke, J. DeGouw |
NOAA/ESRL |
S |
GCMS |
Gas chromatograph/Mass spectrometer, direct or canister sampling |
VOCs |
J. Gilman/B. Lerner |
NOAA/ESRL |
S |
ICIMSCU |
Iodide ion CIMS especially for N- and Cl-containing VOCs |
VOC/LVOC/ELVOC |
B. Yuan, C. Warneke, J. de Gouw, J. Krechmar, J. Jimenez |
NOAA/ESRL, CU |
S |
CIMSUNC |
FIGEARO-I-CIMS |
LVOC/ELVOC |
B. Turpin, J. Surrat |
UNC Chapel Hill |
S |
MC |
WSOC, ES-MS/MS |
Gas Phase compounds |
S. Tomaz, B. Turpin, J. Surrat |
UNC Chapel Hill |
S |
MCICON |
Mist Chamber/ Ion Chromatograph with on-line HNO3, HONO |
Nitrogen Isotopes of Nitrite and Nitrate |
M. Hastings, J. Dibb, J. Chai |
Brown, UNH |
S |
MCICOFF |
Mist Chamber/ Ion Chromatograph with off-line isotope MS |
Nitrogen Isotopes of Nitrite and Nitrate |
M. Hastings, J. Dibb, J. Chai |
Brown, UNH |
S |
RN |
Off-line NOx collector, HONO collector |
NOx, HONO |
J. Chai, D. Miller |
Brown
| S |
GCGCR |
Sorbent tube collection GCxGC/TOF-MS (EI) |
V/IVOC |
K. Barsanti, L. Hatch |
UC Riverside |
S |
SPE |
Filter samples and solid phase extraction disks |
SVOC |
K. Barsanti, L. Hatch |
UC Riverside |
S |
AEROSOL MEASURMENTS |
GCGCB |
GCxGC-HRTOFMS including both Electron Impact (EI) ionization and softer vacuum ultraviolet (VUV) ionization |
SVOC/LVOC |
A. Goldstein, C. Jen |
UC Berkeley |
S |
SPOT |
Condensation particle samplerĀ analyzed via IC/HPLC |
Organic Nitrogen |
C. Jen, F. Arantza |
UC Berkeley, ADI |
S |
AMSNOAA |
Aerosol mass spectrometer with time-of-flight MS, and light-scattering module |
Fine Mode Composition |
A. Middlebrook |
NOAA/ESRL |
S |
LTOFAMS |
Aerosol mass spectrometer with high resolution time-of-flight MS |
Fine Mode Composition |
T. Onasch |
Aerodyne |
C |
SMPS |
Scanning mobility particle sizer, Particle number concentration. |
Particle size and number |
T. Onasch |
Aerodyne |
C |
OPC |
Optical particle counter |
Particle size and number |
T. Onasch |
Aerodyne |
C |
SP2ARM |
Soot photometer |
rBC |
T. Onasch, A. Sedlacek |
Aerodyne, BNL |
S |
SP2UCD |
Soot photometer |
rBC |
C. Cappa |
UCD |
Mini chamber |
DIMS |
2 MOUDI impactors, off site analysis by DI/MS |
Particle chemistry |
A. Laskin, S. Nizkorodov |
PNNL, UC Irvine |
S |
PILSPNNL |
PiLS with HPLC/UV-Vis/ESI-HRMS analysis of water soluble constituents |
Particle chemistry |
A. Laskin, S. Nizkorodov |
PNNL, UC Irvine |
S |
CRDPASUCD |
Dual-wavelength cavity ringdown + photoacoustic spectrometer at 405nm and 532nm and humidified at 532mn |
Particulate light absorption |
C. Cappa |
UC Davis |
Mini chamber |
SEMSUCD |
|
Particle mobility and aerodynamic size distr. |
C. Cappa |
UC Davis |
Mini chamber |
PASS3UCD |
PASS3 (DMT) at 405, 532, and 781 nm, but only 781 nm likely works well |
Particle light absorption |
C. Cappa |
UC Davis |
Mini chamber |
BrCPiLS |
PiLS sampler with long path liquid phase UV-vis absorption spectrometer |
Brown Carbon Absorption |
R. Washenfelder, C. Womack |
NOAA/ESRL |
R |
BBCEAS |
Broad-band cavity absorption spectrometer |
Aerosol Absorption, UV-vis |
R. Washenfelder, C. Womack |
NOAA/ESRL |
R |
CRDPASNOAA |
Cavity ring-down and photo-acoustic spectrometers |
Particle absorption/extinction |
N. Wagner |
NOAA/ESRL |
R |
NEPH |
Scattering as a function of angle |
Imaging Nephelometer |
K. Manfred |
NOAA/ESRL |
R |
PILSESI |
PiLS sampling with electrospray ionization negative ion mass spectrometry |
Aerosol chemical composition |
C. Stockwell, J. Roberts |
NOAA/ESRL |
S |
SPAMSMIT |
Soot particle Aerosol Mass Spectrometer |
BC/BrC |
C. Lim, D. Hagan, J. Kroll |
MIT |
Mini chamber |
AMSMIT |
Aerosol Mass Spectrometer |
Organic Aerosol |
C. Lim, D. Hagan, J. Kroll |
MIT |
Mini chamber |
CAPSMIT |
Cavity Attenuated Phase-Shift, Single Scattering Albedo |
Optical Prop |
C. Lim, D. Hagan, J. Kroll |
MIT |
Mini chamber |
|
CO, O3, CO2 on the chamber |
CO, O3, CO2 |
C. Lim, D. Hagan, J. Kroll |
MIT |
Mini chamber |
FilterSampler |
ESI-MS/MS, GC-MS, Brown carbon (absorbance 200-800nm) |
Aerosol Chemistry |
T. Cui, B. Turpin, J. Surrat |
UNC Chapel Hill |
S |
PiLSUNC |
WSOC, ES-MS/MS |
Particle phase compounds |
T. Cui, B. Turpin, J. Surrat |
UNC Chapel Hill |
S |
TDCAPS |
Particulate Organic Nitrates |
Particulate Organic Nitrates |
E. Wood |
Drexel |
C |
PAXUMT |
Photoacoustic extinction at two wavelengths at 405 and 870 nm |
Aerosol Absorption and scattering |
B. Yokelson, V. Selimovic |
U. Montana |
S |
SMOKE PROCESSING |
OFR |
Measure of changes in aerosol mass, chemistry and other properties in a flow reactor at high reactant (e.g. OH) concentrations |
Potential Aerosol Mass |
M. Coggan, J. Jimenez |
NOAA/ESRL, CU |
OFR |
PAM |
Measure of changes in aerosol mass, chemistry and other properties in a flow reactor at high reactant (e.g. NO3) concentrations |
Potential Aerosol Mass |
A. Lambe, T. Onasch, S. Herndon |
Aerodyne |
PAM |
PhotochemicalChamber |
1 portable chamber for gas phase and SOA processing studies. Instrumentation is listed under "chamber". |
Photochemical processing |
S. Jathar, L. Lewane, A. Galang, S. Tarum |
CSU |
Chamber |
MiniChamber |
Batch reactor photochemical aging of particles with chemical and optical measurements, opportunities for other measurements. Instrumentation is listed under "chamber". |
Particle Aging Reactor |
J. Kroll, C. Lim, D. Hagan, C. Cappa |
MIT, UC Davis |
Mini Chamber |
BC Intercomparison |
ECOC |
Quartz and QBT filters |
elemental and organic carbon |
Hanyang Li |
OSU |
S |
PAX870 |
Photoacoustic extinction at two wavelengths at 870nm |
light absorption (eBC) + light scattering |
Hanyang Li, Gavin McMeeking |
OSU |
S |
AE31 |
Aethalometer (AE-31) 7 wavelength |
light attenuation (eBC) |
Gavin McMeeking |
NPS |
S |
microAETH |
micro-Aeth |
light attenuation (eBC) |
Gavin McMeeking |
CSU |
S |
ABCD |
870 nm attenuation filter based |
light attenuation (eBC) |
Gavin McMeeking |
LBNL |
S |
TAP |
Light attenuation TAP 3 wavelength |
light attenuation (eBC) |
Hanyang Li, Gavin McMeeking |
Brechtel |
S |
CLAP |
Light attenuation 3 wavelength |
light attenuation (eBC) |
Hanyang Li, Gavin McMeeking |
NOAA GMD |
S |
SMPSOSU |
SMPS |
aerosol size distributions |
Hanyang Li |
OSU |
S |
POPS |
POPS 140nm-3um |
aerosol optical size distributions |
G. McMeeking |
HS |
S |
SP2NOAA |
Soot photometer |
rBC |
S. Schwarz, G. McMeeking |
NOAA/ESRL |
S |
COOSU |
Carbon monoxide |
CO |
H. Li |
OSU |
S |
CO2OSU |
Carbon dioxide and water vapor |
CO2 |
H. Li |
OSU |
S |