ABCDEFGHIJKLMNOPQRSTUVWXYZAAABACADAEAFAGAHAIAJAK
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saewung
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Meas IDLocationParameterTechniqueReferencePIPeople Operating Instrum. / Responsible for DataFunding / AvailabilityPower Needs (including all pumps, laptops, etc.)Instrument Footprint (sq ft. or m2)Total Space needed including tables, chairs (sq ft or m2)Sampling Inlet (location, height, shared?)Internet Needs?
Remote Desktop?
Casual?
None?		Gas Cylinder Use:
Campaign Total #
(indicate if zero)		Gas Cylinder Use:
# near instrument		Solvent Use
What?
How Much
(indicate if none)		Particle Charging Source
What?
How Many?
(indicate if none)		Special NeedsCommentsContact Info#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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Gas-Phase Measurements#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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G1ST 4VOC Eddy Cov. Fluxes & ConcentrationsToF-PTRMSThomas Karl, NCAROngoing before & during intensive1kW for TOF-MS + 500 W for pumps300 x 100 x 200n/an/athis instrument will not be deployed in 2011tomkarl_at_ucar.edu1.5#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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G10Outside in own housing. Power?H2O. CH4, CO2Picarro G1301? with 16-port manifold Jielun Sun, NCARProbable--being assembled in spring 2011 (as of 1/25/11)300W17x10x23" (analyzer only) -- NOT in a seatainerwill be outside in own housing (no trailer or tower needs) - location uncertainjsun_at_ucar.edu0.3#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!00.66
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G11ST 7NO3/N2O5Cavity Ringdown SpectroscopyFuchs, et al Anal. Chem., 2008Steve Brown/Julie FryJulie FryConfirmed800 watts startup, 400 watts running0.6 x 1.2 m1.2 x 1.2 m10 m above container (not shared)fry_at_reed.edu0.8#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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G12ST 7NO2, PANs, HNO3, Alkyl nitrates (gas & aerosol using denuder)TD-LIFRollins,et al, ES&T, 2010Ron Cohen/Julie FryJulie FryConfirmed2.6 kW (300 W at inlets, remainder in container)1 m x 1 m2 m x 2 m (incl. cal gas tank)10 m above (co-located with NO3)fry_at_reed.edu2.6#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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G13ST 7NO, NO2, NH3Catalyst; chemiluminescenceThermo Model 17iJulie FryJulie FryAvailable (if desired)900 W2 ft height in 17” rack; + pumpNone special – laptop could sit on rack?0.9#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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G15ST 1HO2, RO2CIMSEdwards et al., Analy. Chem., 2003; Hornbrook et al., AMT, submitted, 2010Chris CantrellChris CantrellLikely
(as of 1/25/11)		1000 Wsingle rack, like OH CIMS, plus room for calibrator (small box 24 x 24), plus room for tools, spares, etc.estimate about 2 m2short inlet straight through seacontainer wall at the middle access port.yes - I use TeamViewer to access instrument status, including making adjustments as needed, web access while at the site also needed.38: Estimate 14 O2, 17 N2 (or 2 LN2 gas delivery), 3 air, plus 2 each of my custom SO/N2 and NO/N2 mixes2 AL, 2 CL; 1 AL air for calibrationIt would be good to limit foot traffic in the key measurement sector up wind of the radical instruments. A measurement of radiation in some form (jNO2 would be acceptable, actinic flux would be better) is really needed to understand the radical observations.In lessons learned from 2010, it would be good to get some rigid organization into the cylinders, including labels with names on each cylinder, and designated locations for full, empty, partial and in-use cylinders. Also, one or more carts that can operate on the sandy soil at the site would be very beneficial. Also, some more detailed directions to the site, as well as information on the various locks. This was very ad hoc last year.cantrell_at_ucar.edu; tel:303-497-1479 (work), 303-947-7466 (cell, in emergencies).1#REF!0
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G16ST 2Water IsotopesCavity Ring-Down Spectroscopy
Picarro L2120-i		D. NooneA. BaileyConfirmed<600 W for Picarro/ext pump + 150 W for monitor = 750 W~6 sq ft~6 sq ftInternet connection preferred000adriana.bailey_at_colorado.edu1#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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G18ST 2VOC concentrationsPTR-ToF-MSDaniel Knopf Stony Brook UniversityLuping SuConfirmed2kW22 in x 31 in25 in x 40 inYes11NoneNoneUPS power backupjemak_at_notes.cc.sunysb.edu
Daniel.Knopf_at_stonybrook.edu
lusu_at_ic.sunysb.edu		2#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!01.15
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G2Chem TowerVOC concentrations & FluxesRelaxed Eddy Ac + GCMSAlex Guenther, NCARTiffany DuhlOngoing before & during intensive20 Wn/an/an/aOn towerguenther_at_ucar.edu0.02Power by Trailers, Tower, etc.
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G3ST 2O3, NOxChemiluminescence & UV abs.Andrew Turnipseed, NCARAndrew Turnipseed, NCAROngoing before & during intensive400 WPermanent Rack in BAI Seatainern/an/aAlready installedturnip_at_ucar.edu0.4#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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G4ST 2SO2UV fluorescenceAndrew TurnipseedAndrew Turnipseed, NCAROngoing before & during intensive100 WPermanent Rack in BAI Seatainern/an/aAlready installedturnip_at_ucar.edu0.1#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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G5ST 2CO2, H2O (profiles + EC fluxes)IRGAAndrew Turnipseed, NCARAndrew Turnipseed, NCAROngoing before & during intensive200 W incl pump3 ft x 2 ftAlready installed0.1#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!01
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G6ST 2COGas Correlation IRJim Greenberg
NCAR		Jim GreenbergOngoing before & during intensive260 WPermanent Rack in BAI Seatainern/an/aturnip_at_ucar.edu0.26#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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G7ST 1OH & H2SO4CIMSSaewung Kim, NCARSaewung KimOngoing before & during intensive1 kW44in(H)x40 (toward the wall)x26n/aInternet is necessary for the remote accessn/a saewung_at_ucar.edu1#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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G8ST 3Total gas-phase organics, including semivolatilesHigh Resolution EI-TOF-MSNot published yetJ. Kroll (MIT)James Hunter, Eben Cross, Jesse KrollConfirmed (as of 5/09/11)2500W4m2, to sit on and below bench4m22.5 kVAUHP He cylinder and Liquid Nitrogen Dewarjhkroll_at_MIT.EDU344#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0??
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G9ST 4VOC concentrations and fluxesHigh Resolution PTRMSArmin Hansel (Univ Innsbruck)Lisa KaserOngoing before & during intensive2kW2m^23m^225marmin.hansel_at_uibk.ac.at lisa.kaser_at_uibk.ac.at2#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!01.7
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Meteorological and Other Measurements.#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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Meas IDLocationParameterTechniqueReferencePIPeople Operating Instrum. / Responsible for DataFunding / AvailabilityPower Needs (including all pumps, laptops, etc.)Instrument Footprint (sq ft. or m2)Total Space needed including tables, chairs (sq ft or m2)Sampling Inlet (location, height, shared?)Internet Needs?
Remote Desktop?
Casual?
None?		Gas Cylinder Use:
Campaign Total #
(indicate if zero)		Gas Cylinder Use:
# near instrument		Solvent Use
What?
How Much
(indicate if none)		Particle Charging Source
What?
How Many?
(indicate if none)		Special NeedsCommentsContact InfoPower Accounting (kVA)Space Accounting (sq ft)Power for current instruments#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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M1Turb TowerShort & Long Wave, Up & Down RadiationRadiometersAndrew Turnipseed, NCARAndrew Turnipseed, NCAROngoing before & during intensive< 1Wn/an/an/aAlready installed on towerturnip_at_ucar.edu0.001#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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M10???Soil respirationMike Ryan, USFS??#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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M11ST 10Boundary Layer HeightCeilometerBarry Leferconfirmed??#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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M12n/aT, RH, wind profilesRelease sondesBarry Leferconfirmedgenerator or plug-inn/an/a??#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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M13Near Chem TowerSoil moisture, etc at multiple depthsIn clearing ~250m WNW of chem tower Bill Massman, USFSOngoingsolar-poweredn/an/a0#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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M14Near Chem TowerSap FlowLaptop, drill, chargersRuss Monson, CUAllyson Eller, CU and Lindsay Young, CUconfirmed200 W total1x1m space near an outletn/ain use May-Septemberlindsay.young@colorado.edu0.2#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0.2
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M15Near Chem TowerCloud Base heightNear Infra-red profilerDave Gochis, NCARDave Gochis, NCARConfirmed7Amp Max Load1 sq meter - within NCAR Hydromet. Study Arean/aInstalled June through TBDIn NCAR Hydromet study plotgochis@ucar.edu0.805#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0.805
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M2Both towersWinds, T, turbulenceSonic AnemometersAndrew Turnipseed, NCARAndrew Turnipseed, NCAROngoing before & during intensive1 Wn/an/an/aAlready installed on towerturnip_at_ucar.edu0.001
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M3Both towersT & RH @ 4 levelsVaisala sensorsAndrew Turnipseed, NCARAndrew Turnipseed, NCAROngoing before & during intensive5 Wn/an/an/aAlready installed on towerturnip_at_ucar.edu0.005
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M4Near and Under Chem TowerSoil Moisture, T, precip, Micro Rain Radar, Laser Disdromter, groundwater level, water isotopes/cation/anion concent, IR skin temperature, small scale (2m AGL) Eddy-Covariance (energy&water)multipleDave Gochis, NCARDave GochisOngoing before & during intensive; confirmed by D.Gochis 12/6/10line power at chem tower site and turb. tower sites but minor amounts (totaling approx, 50W), we are already plugged into these systems. Additonal power for 2011 will total only a couple more Wattsexisting enclosed hydromet study area near chem tower/power drop is adequate. Additional instruments will be added within this enclosure in the spring 2011space we currently occupy for computers in Jim Smith/John Ortega/NCAR trailer is adequate for summer 2011n/agochis_at_ucar.edu0.05#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0.05
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M5n/aSap FlowPeter Harley, NCARJia Hu (ASP)Ongoing before & during intensiven/an/an/an/aguenther_at_ucar.edu0#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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M6ST 7Wind Speed and MeteorologySonic Anemometer and small Met station. Vaisala HMT337, Vaisala PTB-100,Gill R3-50, Kipp & Zonen CNR1, LiCor 7500Martin Gallagher, Univ. of Manchester, UKMile Flynn, Niall RobinsonConfirmedSee notes in aerosol section0.22 x 0.22 m base mast xt 2m tallsee notes in aerosol sectionn/aCo-located with PBAP WIBS4 and total aerosol,(UHSAS) measurementsmartin.gallagher_at_manchester.ac.uk, michael.flynn@manchester.ac.uk, niall.robinson@manchester.ac.uk, keith.bower@manchester.ac.uk0#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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M7Near Chem TowerTree branch gas-exchangeLiCor 6400 Instruments x 3Russ Monson, CUAllyson Eller, CUConfirmed54 W total (3 x 18 W)within 200 m of towern/ain use May-Septemberon drought manipulation plots, cherry-picker access to upper brancheslindsay.young@colorado.edu0.054#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0.054
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M8Near Chem TowerTree branch VOC emissionPTR-MS and associated clean-air generatorRuss Monson, CUAllyson Eller, CU and Loles Asensio, CUconfirmed2100 W totalwithin 200 m of towern/ain use May-Septemberon drought manipulation plots, includes soil chamber worklindsay.young@colorado.edu2.1#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!2.1
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M9Turb TowerTurbulence tower, CO2 fluxessonic anemometer/LiCor7500 H20/CO2/T&RH at 5 levels 2--43m; surface pressure; Net radiation?Ned Patton, NCAROngoing300W [WAG by Oncley] (Spur power drop off of main site drop)0.3#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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Particle-Phase Measurements
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Meas IDLocationParameterTechniqueReferencePIPeople Operating Instrum. / Responsible for DataFunding / AvailabilityPower Needs (including all pumps, laptops, etc.)Instrument Footprint (sq ft. or m2)Total Space needed including tables, chairs (sq ft or m2)Special NeedsCommentsContact Info#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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P1ST 10Size distribution 2SMPS (3-800 nm) & OPC (LASAIR 1002 300 nm - 3 um)Jim Smith, NCARJohn Ortegarunning continuously1000 W0.52m x 0.72m1 m2currently using a pm10 cyclone inletin a movable rack, can share vacuum pump if needed; share inlet w/ J. FryHas been at site since February 2010jimsmith_at_ucar.edu1#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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P36ST 10total particle number concentration3025AJim Smith, NCARJohn Ortega??????came online 8/4??
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P37filters samplersPrecursor-specific SOA tracersTisch High-Volume SamplerKleindienst et al., 2007John Offenberg & Chris Geron, EPAJohn Ortega (Samplers) & Chris Geron (Data)Confirmed\4ft by 4ft sheet of plywood and put concrete blocks on the
plywood to hold it down in the wind. 		16 ft2, no container space needed226 lpm PM2.5 - Inlet built into samplerPossibility that Tisch sampler will not be brought, but instead share filters with Chris Geron for this analysisNeed ~1000+ micrograms of carbon on Quartz fiber filters ortega at ucar.edu, geron.chris_at_epa.govfilter sampler, see column AK#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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P11ST 10Particle size distributionScanning Electrical Mobility Sizer (SEMS)Brechtel Manuf. Sorooshian, et al, AS&T 2008 Julie FryJulie FryConfiremed700 W1 m21 m2 (inside)fry_at_read.edu0.7#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!00.72
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P1214C(as above P9)Chris Geron, EPAJohn Ortega (Samplers) & Chris Geron (Data)ConfirmedTogether with above (P9)Need ~300 micrograms of carbon on Quartz fiber filters (shared btw EC/OC and 14C)ortega at ucar.edu, geron.chris_at_epa.govfilter sampler, see column AK#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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P13ST 9Real-time Size distributions: 5 nm - 32 umGrimm WRAS (Wide-range aerosol sampler)Uli Poschl, Max Planck MainzAlex HuffmanPlanned0.75 kWN/AN/AOutside (near Pöschl bioaerosol instruments)N/Aa.huffman at mpic.de0.375#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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P14ST 10Black carbon massDMT SP2 (Soot Particle Soot Photometer)Ex. Application: Schwarz et al., 2006Dubey, LANLAllison AikenConfirmed700W (pump included)3 ft x 6 ft footprint3 ft x 6 ft footprintremote desktop00milli Q water, 1 gallon1?dubey at lanl.gov,bflowers at lanl.gov,aikenac at lanl.gov0.7#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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P15ST 10375, 405, 532, 781 nm aerosol absorption/scatteringDMT 3-Wavelength Photoacoustic Sensors, 2-Vis/IR, 1-UVArnott et al., 2006Dubey, LANLBrad FlowersConfirmed700W (pump included)3 ft x 6 ft footprint3 ft x 6 ft footprintdubey at lanl.gov,bflowers at lanl.gov,aikenac at lanl.gov0.7#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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P16ST 10EC/OC x2Sunset Labs, Field InstrumentMike HanniganMingjie XieConfirmed~10A @ 115V = 1.2kVA?19" rack?19" rack?hannigan_at_colorado.edu1.2#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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P17ST 1Gas and particle-phase organic acidsMOVI-CI-TOFMSYatavelli and Thornton, AS&T, 2010J.L.Jimenez,
CU, Boulder		Reddy YatavelliConfirmed2 kW Total
(400W of which will be scroll pumps outside trailer; scroll pumps are 900W at start-up)		1.2 x 1.0 m (48"x39")2 m2Internet needed2 Po-210 (NRD P-2021)Need LN2 dewarpower in column 2 is listed as 60% of power since most of instrument will be on roof and thus not need airconditioning (this number assumes 80% of power is outside)yatavelli_at_gmail.com1.8#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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P18ST 9Size Distributions of PBAPTSI UV-APSHuffman et al., 2009bUli Poschl, Max Planck MainzAlex HuffmanConfirmed (2/2/11)1.55kW = 400 W (Laptop) + 150W (Computer) + 1kW (Pump)50 x 100 cm = 0.5 m20.7 m2Internet necessary: occasional remote desktopN/AIdeally straight-shot TSP inlet into top of UVAPS (x2?). Flow @ 5 lpm/ea.a.huffman at mpic.de1.55#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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P19ST 7Size Distributions of PBAP 0.6-20 µm, 1-100 µm. Total aerosol size distribution and in-canopy aerosol fluxes, 0.055-1.0 µmWIBS-4 & UHSASGabey et al., 2010Martin Gallagher, Univ. of Manchester, UKNial Robinson (PDRA/operator), Mike Flynn (setup and DAS)Confirmed/Post interviews completed and successful candidate appointed 10/12/2010Maximum incl start up power: 1.5 kW (including 0.5 kW for winch system if deployed)WIBS 80 x 60 x 30 cm (x 2 if both WIBS deployed), UHSAS 80 x 60 x 30 cm.0.70 m2 tableWIBS-4 #1 at 1.0 m
WIBS 4# 2 Tower height or on profile		Suggestion is to install a small winch+arm on a tower to provide continuous vertical profiles of PBAP size distributions within forest canopy using second WIBS 4.[. Power required for winch - not yet available. If winch to be used then require access to steel tower. Site visit planned to look at practicalities of winch systemSecond WIBS 4 would be mounted at a fixed height on a short 2 m mast in trunk-space**. If winch impractical then second WIBS 4 would be fixed above canopy on tower, space allowing. Proposal was successful. Funding starts 1st October 2010 for 2* years (* extension of 6 months requested due to delays). New WIBS 4 instrument ordered 12th August. Expected delivery March 2011. Second WIBS 4 loan organised through V.Woods, DSTL. [Jan 12, loan confirmed but delayed until May].WIBS-3 will also be available as backup. Postdoc position filled, official start date March 2011. [A TSI APS can be provided if required/power allowable]martin.gallagher_at_manchester.ac.uk, michael flynn@manchester.ac.uk, niall.robinson_at_postgrad.manchester.ac.uk, keith.bower@manchester.ac.uk1.5#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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P2ST 7Size-Resolved Particle Number Fluxes (10-200 nm)TSI FMPS + Eddy CovarianceSara Pryor, U. Indiana & Gaby Katul, Duke UConfirmed840 W (VA) includes FMPS, Pump, MFC, logger, laptop, UPS0.55 m2 includes FMPS, Pump, MFC, logger, laptop, UPSsee column Jspryor_at_indiana.edu1#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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P20filter samplersBioaerosol components: carbohydrates, lipids, proteins, and DNAHi-Vol Sampler + custom assaysMark Hernandez, CU-BoulderJohn Ortega will operate samplersConfirmed6A @ 110V???ortega at ucar.edu mark.hernandez_at_colorado.edufilter sampler, see column AF#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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P21near ST 9PBAP speciationBiosampler + PCR/sequencingTony Prenni, CSUElvin Garcia1-2 times per mo. during all of 2010 + daily during 2011 Intensive600 W for pumps. Intermittent (2-5 hrs) sampling.All samplers will fit on 1 table.Sampling is done outside of container. Need a portable table for sampling and small area for storing pumps. (space for ~3'x5' table in trailer with rest of Prenni instruments needed)Also need a clean area for transferring samples at site. Need power (?? Amps) for small freezer + portable autoclave, but this can be offsite (bunkhouse?).prenni_at_lamar.colostate.edu0.6#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!01.1
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P22ST 9Ice Nuclei CFDCTony Prenni, CSUTony Prenni2011 summer intensive2.5 kWatt at startup. Variable continuous power depending on processing conditions, with a maximum of 2.1 kWatt.1 m x 0.8 m rack. Additional 0.3 m on 3 sides of rack needed for access. Plus 1 chair. Also need space for one nitrogen tank.We will need space for a N2 cylinder. Also need a clean area for removing TEM grids (could be in a different container).prenni_at_lamar.colostate.edu2.142#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
56
P23ST9Size-resolved collection: for microscopy, etc.MOUDI SamplerUli Poschl, Max Planck MainzAlex HuffmanConfirmed (2/2/11)1.2kW0.5 m20.5 m2 (table space)N/AN/AIdeally straight-shot TSP inlet into top of MOUDI. Flow @ ~30 lpm.a.huffman at mpic.de1.15#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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P24ST 3OC and EC Carbon-14Hi-Vol FiltersJL Jimenez, CU BoulderPatrick HayesConfirmed500 W0.75 m x 0.6 m0.75 m x 0.6 mnext to trailerN/AN/AN/AN/AN/Ajlj.colorado_at_gmail.com0.25#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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P25ST 9Various off-line techniquesFilter/ImpactorUli Poschl, Max Planck MainzAlex HuffmanConfirmed (2/2/11)1.15kW50 x 100 cm = 0.5 m20.5 m2N/AN/AIdeally straight-shot TSP inlet into various filter holdersa.huffman at mpic.de1.15#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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P26filters samplersDNA extraction from ParticlesHi-Vol samplerUli Poschl, Max Planck MainzAlex HuffmanV. Likely (2/2/11)2kWNoneN/AN/ASelf-standing, outside locationOk to be different location, if necessary.a.huffman at mpic.defilter sampler, see column AK#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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P27ST 8Aerosol Number Size Distribution (1 ambient, 1 multiplexing)2 TSI SMPSJL Jimenez, CU BoulderBrett Palm, Amber OrtegaConfirmed2 x (500W + 750W pumps) = 2500 W Total24" x 24" each24" x 24" eachN/AN/Abutanol 2 litersTSI Kr85jlj.colorado_at_gmail.com2.5#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
61
P38ST 8Total Particle Number ConcentrationTSI 3010JL Jimenez, CU BoulderBrett Palmcame online 8/5/11
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P39ST 8Total Particle Number ConcentrationTSI 3786JL Jimenez, CU BoulderBrett Palmcame online 8/5/11
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P28ST 9Bioaerosol culturability3Uli Poschl, Max Planck MainzAlex HuffmanPlanned (2/2/11)0.85 kW0.75 m section of table (x~0.5m)0.75 m section of table (x~0.5m)NoneN/AN/AWill need to be placed outside our trailer. Ideally on roof, or somewhere not too close to people (for lessened sampling interferences). Will need to be covered from rain, etc.a.huffman at mpic.de0.425#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
64
P29ST 4PM-2.5 and PM-10TEOM 1405-DFTony Prenni, CSUTony Prenniconfiremed1 kWInstrument is 17" x 19", but we will likely put it in a rack..2' x 3'prenni_at_lamar.colostate.edu1#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0??
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P3ST 10Size-resolved nanoparticle compositionHTOF-TDCIMSJim Smith, NCARPaul WinklerConfirmed3.6 kW53" x 32"8' x 6'0.38" tubecan share pump, need LN2 deliveryjimsmith_at_ucar.edu3.6#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
66
P30filter sampler outside?PM-2.5 and PM-10, bacteria speciationMedium volume dichot sampler with PCR and organic speciationMike Hannigan, Noah Fiererconfirmedhannigan@colorado.edufilter sampler, see column AKST 1ST 2ST 3ST 4SmTr 5SmTr 6ST 7ST 8ST 9ST 10Chem TowerFilter Samplers (not included in total power b/c may be elsewhere)
67
P31ST 9PM-1 aerosol concentratorMultistage virtual impactorTony Prenni, CSUTony PrenniLikely
(as of 1/21/11)
1.2 kW14"x21"2' x 3'In proximity to CFDC instrument; dedicated 20A/120V-style outlet circuitprenni_at_lamar.colostate.edu1.2#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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P32ST 10Aerosol volatility
(with aerosol absoption/scattering)		Thermodenuder (+PASS-3, P15)Dubey, LANLBrad FlowersConfirmed100 W at mostsee P15see P15dubey at lanl.gov,bflowers at lanl.gov,aikenac at lanl.gov0.1#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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P33filters samplersOrganosulfates and nitrooxy organosulfatesHigh-Volume Sampler
PM2.5 or PM10
UPLC/ESI-HR-Q-TOFMS		Surratt et al., 2008 (JPCA) & 2009 (PNAS)Jason Surratt (UNC)TBDTentative (as of 1/12/11)15 Amp start-up and 6 Amp running @ 120 VAC~ 1 m2(no space needed in trailers)Freezer space; ~ 2 cu ft; at least -20 Csurratt_at_unc.edufilter sampler, see column AF#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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P34ST 1Gas and particle-phase organic acidsAPCI-MSThorsten Hoffmann; (University of Mainz, Germany)Alexander Vogelconfirmed2.5 kW~ 1 m2one table needed to place the instrument, space in front needed to place the aerosol concentrator; total space: ~2m²inlet height ~10 m above ground if possible. maybe sharing with MOVI-CI-ToF-MS?-1x Helium 5.0, (T10); 1x Nitrogen (T10); 4x synth. air (T50)maybe we can install a line from outside?--line voltage 220 or 230V~ available?vogelal_at_uni-mainz.de2.5#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!00
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P35ST 1particle phase acidsfilter LC-MSThorsten Hoffmann/ Anna van EijckAnna van Eijckconfirmed500 Wpumps can be placed outside in a Zarges Box (2 m²)-PM 2.5 inlet and filter holder, maybe on a tower? 10m heightAceton/Acetonitrile 1liter each-freezer space (-20 °C)line voltage 220 or 230V~ available?van.Eijck_at_uni-mainz.de0.25#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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P4ST 9Size-Resolved CCNDMT CCNcTony Prenni, CSUEzra LevinInstalled March 20101100 W.4' x 2'Rack + 1 table: 9' x 3'prenni_at_lamar.colostate.edu1.1#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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P5ST 8Submicron NR Aerosol CompositionHR-ToF-AMSDeCarlo et al., 2006J.L. Jimenez, CU BoulderPedro Campuzano JostConfirmed700 W instrument, + 1.5 kW for pumps + cal system + laptops3 x 19" racks (~52" x 28")6 m22 meters above containerN/AN/AN/AN/Ajlj.colorado_at_gmail.com2.3#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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P6ST 8Potential Aerosol Mass (PAM)PAM flowtube + AMS & SMPSKang et al., 2007J.L. Jimenez, CU BoulderBrett Palm, Amber OrtegaConfirmed1.5 kW auxiliary instruments3 m2 (inc. accessories)3 m22 meters above container3 cylinders (N2, ZeroAir, SO2)3 cylinders (N2, ZeroAir, SO2)N/AN/APAM chamber will be mounted outside (roof?) and gas cylindersVery interesting to sample output w/ e.g. PTRMS (flow available ~ 4 lpm)amber.ortega_at_colorado.edu, jlj.colorado_at_gmail.com, brune_at_meteo.psu.edu1.53#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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P7ST 8Aerosol volatilityThermal Denuder (+ AMS above)Huffman et al., 2009aJ.L. Jimenez, CU BoulderPatrick Hayes, Art BraundmeierConfirmed400 W2 m22 m22 meters above containerN/AN/AN/AN/ADepending on what else we are doing, maybe will do part of the time. Interesting to sample output w/ PTRMSjlj.colorado_at_gmail.com0.4#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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P8ST 3Organic aerosol molecular and class compositionConcentrator + TAG-HR-AMSWilliams et al., 2006JL Jimenez, CU Boulder, and A. Goldstein, BerkeleyArthur Chan (Berkeley) & Pedro CJ (CU)Confirmed15 A (1.7 kW) for Agilent GC + 700 W for AMS part + 0.7 kW for concentrator + 0.5 kW for sampling pump (Agilent GC needs dedicated 20A circuit)64" x 40"6 m22 meters above containerremote desktop for troubleshooting1 or 21gas cylinders, GC needs dedicated 20 A circuit (requires NEMA 5-20 receptacle)jlj.colorado_at_gmail.com, arthurchan_at_berkeley.edu, pcampuzanojost_at_gmail.com3.6#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!02
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P9filters samplers??EC/OC2 Medium Volume samplersChris Geron, EPAJohn Ortega (Samplers) & Chris Geron (Data)Confirmed (also some sampling before)3/4 hp gast pump per sampler, so 2 x 550W = 1.1 kWKelley Barsanti has been collaborating with Chris on this. Need ~300 micrograms of carbon on Quartz fiber filters (shared btw EC/OC and 14C)ortega at ucar.edu, geron.chris_at_epa.govfilter sampler, see column AK#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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Meas IDLocationParameterTechniqueReferencePIPeople Operating Instrum. / Responsible for DataFunding / AvailabilityPower Needs (including all pumps, laptops, etc.)Instrument Footprint (sq ft. or m2)Total Space needed including tables, chairs (sq ft or m2)Special NeedsCommentsContact Info#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0
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To view this page as a (NON-editable) web page, go to: tiny.cc/BEACHON-RoMBAS_Planning
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KW (kVA really)AmpsST 1 (kVA)ST 2 (kVA)ST 3 (kVA)ST 4 (kVA)SmTr 5 (kVA)SmTr 6 (kVA)ST 7 (kVA)ST 8 (kVA)ST 9 (kVA)ST 10 (kVA)Chem-Tower (kVA)Filter Samplers (not included in total power b/c may be elsewhere)
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does NOT include filter samplers; see column AKGrand Total for Instruments Only52469Grand Total for Instruments Only#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!3.217.67
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Power for A/C, approx as = instruments52469Power for A/C, approx as = instruments#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!0.000
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DOES include air conditioning for filter samplers or tower instruments since they are outside; see columns AKGrand Total Power, Including 70% Capacity Factor (also circuit quantization)1541,172Grand Total Power, Including 70% Capacity Factor (also circuit quantization)#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!4.5811
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Note: This really is the total power (as some power at trailers is 220 V)Installed Usable Power (A @ 110VAC) - Per IREA Feb201175590Installed Usable Power (A @ 110VAC) - Per Dave Patterson12.52112.512.50 wired, 2-4kVA from adjacent ST0 wired, 2-4kVA from adjacent ST00002.40??
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Available Power (A @ 110 VAC)-79-583Available Power (A @ 110 VAC)#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!#REF!-2#VALUE!
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