A | B | C | D | E | F | G | H | I | J | K | L | M | N | O | P | Q | R | S | T | U | V | W | X | Y | Z | AA | AB | AC | AD | AE | AF | AG | AH | AI | AJ | AK | |
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1 | saewung | ||||||||||||||||||||||||||||||||||||
2 | Meas ID | Location | Parameter | Technique | Reference | PI | People Operating Instrum. / Responsible for Data | Funding / Availability | Power 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 Needs | Comments | Contact Info | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ||||||
3 | Gas-Phase Measurements | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | |||||||||||||||||||||||||
4 | G1 | ST 4 | VOC Eddy Cov. Fluxes & Concentrations | ToF-PTRMS | Thomas Karl, NCAR | Ongoing before & during intensive | 1kW for TOF-MS + 500 W for pumps | 300 x 100 x 200 | n/a | n/a | this instrument will not be deployed in 2011 | tomkarl_at_ucar.edu | 1.5 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | |||||||||||||
5 | G10 | Outside in own housing. Power? | H2O. CH4, CO2 | Picarro G1301? with 16-port manifold | Jielun Sun, NCAR | Probable--being assembled in spring 2011 (as of 1/25/11) | 300W | 17x10x23" (analyzer only) -- NOT in a seatainer | will be outside in own housing (no trailer or tower needs) - location uncertain | jsun_at_ucar.edu | 0.3 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | 0.66 | ||||||||||||||
6 | G11 | ST 7 | NO3/N2O5 | Cavity Ringdown Spectroscopy | Fuchs, et al Anal. Chem., 2008 | Steve Brown/Julie Fry | Julie Fry | Confirmed | 800 watts startup, 400 watts running | 0.6 x 1.2 m | 1.2 x 1.2 m | 10 m above container (not shared) | fry_at_reed.edu | 0.8 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ||||||||||||
7 | G12 | ST 7 | NO2, PANs, HNO3, Alkyl nitrates (gas & aerosol using denuder) | TD-LIF | Rollins,et al, ES&T, 2010 | Ron Cohen/Julie Fry | Julie Fry | Confirmed | 2.6 kW (300 W at inlets, remainder in container) | 1 m x 1 m | 2 m x 2 m (incl. cal gas tank) | 10 m above (co-located with NO3) | fry_at_reed.edu | 2.6 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ||||||||||||
8 | G13 | ST 7 | NO, NO2, NH3 | Catalyst; chemiluminescence | Thermo Model 17i | Julie Fry | Julie Fry | Available (if desired) | 900 W | 2 ft height in 17” rack; + pump | None special – laptop could sit on rack? | 0.9 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ||||||||||||||
9 | G15 | ST 1 | HO2, RO2 | CIMS | Edwards et al., Analy. Chem., 2003; Hornbrook et al., AMT, submitted, 2010 | Chris Cantrell | Chris Cantrell | Likely (as of 1/25/11) | 1000 W | single rack, like OH CIMS, plus room for calibrator (small box 24 x 24), plus room for tools, spares, etc. | estimate about 2 m2 | short 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 mixes | 2 AL, 2 CL; 1 AL air for calibration | It 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 | ||||||||||||||||
10 | G16 | ST 2 | Water Isotopes | Cavity Ring-Down Spectroscopy | Picarro L2120-i | D. Noone | A. Bailey | Confirmed | <600 W for Picarro/ext pump + 150 W for monitor = 750 W | ~6 sq ft | ~6 sq ft | Internet connection preferred | 0 | 0 | 0 | adriana.bailey_at_colorado.edu | 1 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | |||||||||
11 | G18 | ST 2 | VOC concentrations | PTR-ToF-MS | Daniel Knopf Stony Brook University | Luping Su | Confirmed | 2kW | 22 in x 31 in | 25 in x 40 in | Yes | 1 | 1 | None | None | UPS power backup | jemak_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! | 0 | 1.15 | |||||||
12 | G2 | Chem Tower | VOC concentrations & Fluxes | Relaxed Eddy Ac + GCMS | Alex Guenther, NCAR | Tiffany Duhl | Ongoing before & during intensive | 20 W | n/a | n/a | n/a | On tower | guenther_at_ucar.edu | 0.02 | Power by Trailers, Tower, etc. | ||||||||||||||||||||||
13 | G3 | ST 2 | O3, NOx | Chemiluminescence & UV abs. | Andrew Turnipseed, NCAR | Andrew Turnipseed, NCAR | Ongoing before & during intensive | 400 W | Permanent Rack in BAI Seatainer | n/a | n/a | Already installed | turnip_at_ucar.edu | 0.4 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ||||||||||||
14 | G4 | ST 2 | SO2 | UV fluorescence | Andrew Turnipseed | Andrew Turnipseed, NCAR | Ongoing before & during intensive | 100 W | Permanent Rack in BAI Seatainer | n/a | n/a | Already installed | turnip_at_ucar.edu | 0.1 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ||||||||||||
15 | G5 | ST 2 | CO2, H2O (profiles + EC fluxes) | IRGA | Andrew Turnipseed, NCAR | Andrew Turnipseed, NCAR | Ongoing before & during intensive | 200 W incl pump | 3 ft x 2 ft | Already installed | 0.1 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | 1 | ||||||||||||||
16 | G6 | ST 2 | CO | Gas Correlation IR | Jim Greenberg NCAR | Jim Greenberg | Ongoing before & during intensive | 260 W | Permanent Rack in BAI Seatainer | n/a | n/a | turnip_at_ucar.edu | 0.26 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | |||||||||||||
17 | G7 | ST 1 | OH & H2SO4 | CIMS | Saewung Kim, NCAR | Saewung Kim | Ongoing before & during intensive | 1 kW | 44in(H)x40 (toward the wall)x26 | n/a | Internet is necessary for the remote access | n/a | saewung_at_ucar.edu | 1 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ||||||||||||
18 | G8 | ST 3 | Total gas-phase organics, including semivolatiles | High Resolution EI-TOF-MS | Not published yet | J. Kroll (MIT) | James Hunter, Eben Cross, Jesse Kroll | Confirmed (as of 5/09/11) | 2500W | 4m2, to sit on and below bench | 4m2 | 2.5 kVA | UHP He cylinder and Liquid Nitrogen Dewar | jhkroll_at_MIT.EDU | 3 | 44 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ?? | |||||||||
19 | G9 | ST 4 | VOC concentrations and fluxes | High Resolution PTRMS | Armin Hansel (Univ Innsbruck) | Lisa Kaser | Ongoing before & during intensive | 2kW | 2m^2 | 3m^2 | 25m | armin.hansel_at_uibk.ac.at lisa.kaser_at_uibk.ac.at | 2 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | 1.7 | ||||||||||||
20 | Meteorological and Other Measurements | . | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ||||||||||||||||||||||||
21 | Meas ID | Location | Parameter | Technique | Reference | PI | People Operating Instrum. / Responsible for Data | Funding / Availability | Power 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 Needs | Comments | Contact Info | Power Accounting (kVA) | Space Accounting (sq ft) | Power for current instruments | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | |||
22 | M1 | Turb Tower | Short & Long Wave, Up & Down Radiation | Radiometers | Andrew Turnipseed, NCAR | Andrew Turnipseed, NCAR | Ongoing before & during intensive | < 1W | n/a | n/a | n/a | Already installed on tower | turnip_at_ucar.edu | 0.001 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ||||||||||||
23 | M10 | ??? | Soil respiration | Mike Ryan, USFS | ?? | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | |||||||||||||||||||||
24 | M11 | ST 10 | Boundary Layer Height | Ceilometer | Barry Lefer | confirmed | ?? | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | |||||||||||||||||||
25 | M12 | n/a | T, RH, wind profiles | Release sondes | Barry Lefer | confirmed | generator or plug-in | n/a | n/a | ?? | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ||||||||||||||||
26 | M13 | Near Chem Tower | Soil moisture, etc at multiple depths | In clearing ~250m WNW of chem tower | Bill Massman, USFS | Ongoing | solar-powered | n/a | n/a | 0 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ||||||||||||||||
27 | M14 | Near Chem Tower | Sap Flow | Laptop, drill, chargers | Russ Monson, CU | Allyson Eller, CU and Lindsay Young, CU | confirmed | 200 W total | 1x1m space near an outlet | n/a | in use May-September | lindsay.young@colorado.edu | 0.2 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0.2 | |||||||||||||
28 | M15 | Near Chem Tower | Cloud Base height | Near Infra-red profiler | Dave Gochis, NCAR | Dave Gochis, NCAR | Confirmed | 7Amp Max Load | 1 sq meter - within NCAR Hydromet. Study Area | n/a | Installed June through TBD | In NCAR Hydromet study plot | gochis@ucar.edu | 0.805 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0.805 | ||||||||||||
29 | M2 | Both towers | Winds, T, turbulence | Sonic Anemometers | Andrew Turnipseed, NCAR | Andrew Turnipseed, NCAR | Ongoing before & during intensive | 1 W | n/a | n/a | n/a | Already installed on tower | turnip_at_ucar.edu | 0.001 | |||||||||||||||||||||||
30 | M3 | Both towers | T & RH @ 4 levels | Vaisala sensors | Andrew Turnipseed, NCAR | Andrew Turnipseed, NCAR | Ongoing before & during intensive | 5 W | n/a | n/a | n/a | Already installed on tower | turnip_at_ucar.edu | 0.005 | |||||||||||||||||||||||
31 | M4 | Near and Under Chem Tower | Soil 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) | multiple | Dave Gochis, NCAR | Dave Gochis | Ongoing before & during intensive; confirmed by D.Gochis 12/6/10 | line 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 Watts | existing enclosed hydromet study area near chem tower/power drop is adequate. Additional instruments will be added within this enclosure in the spring 2011 | space we currently occupy for computers in Jim Smith/John Ortega/NCAR trailer is adequate for summer 2011 | n/a | gochis_at_ucar.edu | 0.05 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0.05 | |||||||||||||
32 | M5 | n/a | Sap Flow | Peter Harley, NCAR | Jia Hu (ASP) | Ongoing before & during intensive | n/a | n/a | n/a | n/a | guenther_at_ucar.edu | 0 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ||||||||||||||
33 | M6 | ST 7 | Wind Speed and Meteorology | Sonic Anemometer and small Met station. Vaisala HMT337, Vaisala PTB-100,Gill R3-50, Kipp & Zonen CNR1, LiCor 7500 | Martin Gallagher, Univ. of Manchester, UK | Mile Flynn, Niall Robinson | Confirmed | See notes in aerosol section | 0.22 x 0.22 m base mast xt 2m tall | see notes in aerosol section | n/a | Co-located with PBAP WIBS4 and total aerosol,(UHSAS) measurements | martin.gallagher_at_manchester.ac.uk, michael.flynn@manchester.ac.uk, niall.robinson@manchester.ac.uk, keith.bower@manchester.ac.uk | 0 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ||||||||||||
34 | M7 | Near Chem Tower | Tree branch gas-exchange | LiCor 6400 Instruments x 3 | Russ Monson, CU | Allyson Eller, CU | Confirmed | 54 W total (3 x 18 W) | within 200 m of tower | n/a | in use May-September | on drought manipulation plots, cherry-picker access to upper branches | lindsay.young@colorado.edu | 0.054 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0.054 | ||||||||||||
35 | M8 | Near Chem Tower | Tree branch VOC emission | PTR-MS and associated clean-air generator | Russ Monson, CU | Allyson Eller, CU and Loles Asensio, CU | confirmed | 2100 W total | within 200 m of tower | n/a | in use May-September | on drought manipulation plots, includes soil chamber work | lindsay.young@colorado.edu | 2.1 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 2.1 | ||||||||||||
36 | M9 | Turb Tower | Turbulence tower, CO2 fluxes | sonic anemometer/LiCor7500 H20/CO2/T&RH at 5 levels 2--43m; surface pressure; Net radiation? | Ned Patton, NCAR | Ongoing | 300W [WAG by Oncley] (Spur power drop off of main site drop) | 0.3 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ||||||||||||||||||
37 | Particle-Phase Measurements | ||||||||||||||||||||||||||||||||||||
38 | |||||||||||||||||||||||||||||||||||||
39 | Meas ID | Location | Parameter | Technique | Reference | PI | People Operating Instrum. / Responsible for Data | Funding / Availability | Power Needs (including all pumps, laptops, etc.) | Instrument Footprint (sq ft. or m2) | Total Space needed including tables, chairs (sq ft or m2) | Special Needs | Comments | Contact Info | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ||||||||||||
40 | P1 | ST 10 | Size distribution 2 | SMPS (3-800 nm) & OPC (LASAIR 1002 300 nm - 3 um) | Jim Smith, NCAR | John Ortega | running continuously | 1000 W | 0.52m x 0.72m | 1 m2 | currently using a pm10 cyclone inlet | in a movable rack, can share vacuum pump if needed; share inlet w/ J. Fry | Has been at site since February 2010 | jimsmith_at_ucar.edu | 1 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | |||||||||||
41 | P36 | ST 10 | total particle number concentration | 3025A | Jim Smith, NCAR | John Ortega | ?? | ?? | ?? | came online 8/4?? | |||||||||||||||||||||||||||
42 | P37 | filters samplers | Precursor-specific SOA tracers | Tisch High-Volume Sampler | Kleindienst et al., 2007 | John Offenberg & Chris Geron, EPA | John 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 needed | 226 lpm PM2.5 - Inlet built into sampler | Possibility that Tisch sampler will not be brought, but instead share filters with Chris Geron for this analysis | Need ~1000+ micrograms of carbon on Quartz fiber filters | ortega at ucar.edu, geron.chris_at_epa.gov | filter sampler, see column AK | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ||||||||||
43 | P11 | ST 10 | Particle size distribution | Scanning Electrical Mobility Sizer (SEMS) | Brechtel Manuf. Sorooshian, et al, AS&T 2008 | Julie Fry | Julie Fry | Confiremed | 700 W | 1 m2 | 1 m2 (inside) | fry_at_read.edu | 0.7 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | 0.72 | ||||||||||||
44 | P12 | 14C | (as above P9) | Chris Geron, EPA | John Ortega (Samplers) & Chris Geron (Data) | Confirmed | Together 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.gov | filter sampler, see column AK | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ||||||||||||||||
45 | P13 | ST 9 | Real-time Size distributions: 5 nm - 32 um | Grimm WRAS (Wide-range aerosol sampler) | Uli Poschl, Max Planck Mainz | Alex Huffman | Planned | 0.75 kW | N/A | N/A | Outside (near Pöschl bioaerosol instruments) | N/A | a.huffman at mpic.de | 0.375 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ||||||||||||
46 | P14 | ST 10 | Black carbon mass | DMT SP2 (Soot Particle Soot Photometer) | Ex. Application: Schwarz et al., 2006 | Dubey, LANL | Allison Aiken | Confirmed | 700W (pump included) | 3 ft x 6 ft footprint | 3 ft x 6 ft footprint | remote desktop | 0 | 0 | milli Q water, 1 gallon | 1? | dubey at lanl.gov,bflowers at lanl.gov,aikenac at lanl.gov | 0.7 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ||||||||
47 | P15 | ST 10 | 375, 405, 532, 781 nm aerosol absorption/scattering | DMT 3-Wavelength Photoacoustic Sensors, 2-Vis/IR, 1-UV | Arnott et al., 2006 | Dubey, LANL | Brad Flowers | Confirmed | 700W (pump included) | 3 ft x 6 ft footprint | 3 ft x 6 ft footprint | dubey at lanl.gov,bflowers at lanl.gov,aikenac at lanl.gov | 0.7 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | |||||||||||||
48 | P16 | ST 10 | EC/OC x2 | Sunset Labs, Field Instrument | Mike Hannigan | Mingjie Xie | Confirmed | ~10A @ 115V = 1.2kVA? | 19" rack? | 19" rack? | hannigan_at_colorado.edu | 1.2 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ||||||||||||||
49 | P17 | ST 1 | Gas and particle-phase organic acids | MOVI-CI-TOFMS | Yatavelli and Thornton, AS&T, 2010 | J.L.Jimenez, CU, Boulder | Reddy Yatavelli | Confirmed | 2 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 m2 | Internet needed | 2 Po-210 (NRD P-2021) | Need LN2 dewar | power 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.com | 1.8 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | |||||||||
50 | P18 | ST 9 | Size Distributions of PBAP | TSI UV-APS | Huffman et al., 2009b | Uli Poschl, Max Planck Mainz | Alex Huffman | Confirmed (2/2/11) | 1.55kW = 400 W (Laptop) + 150W (Computer) + 1kW (Pump) | 50 x 100 cm = 0.5 m2 | 0.7 m2 | Internet necessary: occasional remote desktop | N/A | Ideally straight-shot TSP inlet into top of UVAPS (x2?). Flow @ 5 lpm/ea. | a.huffman at mpic.de | 1.55 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ||||||||||
51 | P19 | ST 7 | Size Distributions of PBAP 0.6-20 µm, 1-100 µm. Total aerosol size distribution and in-canopy aerosol fluxes, 0.055-1.0 µm | WIBS-4 & UHSAS | Gabey et al., 2010 | Martin Gallagher, Univ. of Manchester, UK | Nial Robinson (PDRA/operator), Mike Flynn (setup and DAS) | Confirmed/Post interviews completed and successful candidate appointed 10/12/2010 | Maximum 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 table | WIBS-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.uk | 1.5 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ||||||||||
52 | P2 | ST 7 | Size-Resolved Particle Number Fluxes (10-200 nm) | TSI FMPS + Eddy Covariance | Sara Pryor, U. Indiana & Gaby Katul, Duke U | Confirmed | 840 W (VA) includes FMPS, Pump, MFC, logger, laptop, UPS | 0.55 m2 includes FMPS, Pump, MFC, logger, laptop, UPS | see column J | spryor_at_indiana.edu | 1 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | |||||||||||||||
53 | P20 | filter samplers | Bioaerosol components: carbohydrates, lipids, proteins, and DNA | Hi-Vol Sampler + custom assays | Mark Hernandez, CU-Boulder | John Ortega will operate samplers | Confirmed | 6A @ 110V??? | ortega at ucar.edu mark.hernandez_at_colorado.edu | filter sampler, see column AF | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ||||||||||||||||
54 | P21 | near ST 9 | PBAP speciation | Biosampler + PCR/sequencing | Tony Prenni, CSU | Elvin Garcia | 1-2 times per mo. during all of 2010 + daily during 2011 Intensive | 600 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.edu | 0.6 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | 1.1 | ||||||||||||
55 | P22 | ST 9 | Ice Nuclei | CFDC | Tony Prenni, CSU | Tony Prenni | 2011 summer intensive | 2.5 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.edu | 2.1 | 42 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ||||||||||||
56 | P23 | ST9 | Size-resolved collection: for microscopy, etc. | MOUDI Sampler | Uli Poschl, Max Planck Mainz | Alex Huffman | Confirmed (2/2/11) | 1.2kW | 0.5 m2 | 0.5 m2 (table space) | N/A | N/A | Ideally straight-shot TSP inlet into top of MOUDI. Flow @ ~30 lpm. | a.huffman at mpic.de | 1.15 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | |||||||||||
57 | P24 | ST 3 | OC and EC Carbon-14 | Hi-Vol Filters | JL Jimenez, CU Boulder | Patrick Hayes | Confirmed | 500 W | 0.75 m x 0.6 m | 0.75 m x 0.6 m | next to trailer | N/A | N/A | N/A | N/A | N/A | jlj.colorado_at_gmail.com | 0.25 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ||||||||
58 | P25 | ST 9 | Various off-line techniques | Filter/Impactor | Uli Poschl, Max Planck Mainz | Alex Huffman | Confirmed (2/2/11) | 1.15kW | 50 x 100 cm = 0.5 m2 | 0.5 m2 | N/A | N/A | Ideally straight-shot TSP inlet into various filter holders | a.huffman at mpic.de | 1.15 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | |||||||||||
59 | P26 | filters samplers | DNA extraction from Particles | Hi-Vol sampler | Uli Poschl, Max Planck Mainz | Alex Huffman | V. Likely (2/2/11) | 2kW | None | N/A | N/A | Self-standing, outside location | Ok to be different location, if necessary. | a.huffman at mpic.de | filter sampler, see column AK | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | |||||||||||
60 | P27 | ST 8 | Aerosol Number Size Distribution (1 ambient, 1 multiplexing) | 2 TSI SMPS | JL Jimenez, CU Boulder | Brett Palm, Amber Ortega | Confirmed | 2 x (500W + 750W pumps) = 2500 W Total | 24" x 24" each | 24" x 24" each | N/A | N/A | butanol 2 liters | TSI Kr85 | jlj.colorado_at_gmail.com | 2.5 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ||||||||||
61 | P38 | ST 8 | Total Particle Number Concentration | TSI 3010 | JL Jimenez, CU Boulder | Brett Palm | came online 8/5/11 | ||||||||||||||||||||||||||||||
62 | P39 | ST 8 | Total Particle Number Concentration | TSI 3786 | JL Jimenez, CU Boulder | Brett Palm | came online 8/5/11 | ||||||||||||||||||||||||||||||
63 | P28 | ST 9 | Bioaerosol culturability | 3 | Uli Poschl, Max Planck Mainz | Alex Huffman | Planned (2/2/11) | 0.85 kW | 0.75 m section of table (x~0.5m) | 0.75 m section of table (x~0.5m) | None | N/A | N/A | Will 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.de | 0.425 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ||||||||||
64 | P29 | ST 4 | PM-2.5 and PM-10 | TEOM 1405-DF | Tony Prenni, CSU | Tony Prenni | confiremed | 1 kW | Instrument is 17" x 19", but we will likely put it in a rack.. | 2' x 3' | prenni_at_lamar.colostate.edu | 1 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ?? | |||||||||||||
65 | P3 | ST 10 | Size-resolved nanoparticle composition | HTOF-TDCIMS | Jim Smith, NCAR | Paul Winkler | Confirmed | 3.6 kW | 53" x 32" | 8' x 6' | 0.38" tube | can share pump, need LN2 delivery | jimsmith_at_ucar.edu | 3.6 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ||||||||||||
66 | P30 | filter sampler outside? | PM-2.5 and PM-10, bacteria speciation | Medium volume dichot sampler with PCR and organic speciation | Mike Hannigan, Noah Fierer | confirmed | hannigan@colorado.edu | filter sampler, see column AK | ST 1 | ST 2 | ST 3 | ST 4 | SmTr 5 | SmTr 6 | ST 7 | ST 8 | ST 9 | ST 10 | Chem Tower | Filter Samplers (not included in total power b/c may be elsewhere) | |||||||||||||||||
67 | P31 | ST 9 | PM-1 aerosol concentrator | Multistage virtual impactor | Tony Prenni, CSU | Tony Prenni | Likely (as of 1/21/11) | 1.2 kW | 14"x21" | 2' x 3' | In proximity to CFDC instrument; dedicated 20A/120V-style outlet circuit | prenni_at_lamar.colostate.edu | 1.2 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | |||||||||||||
68 | P32 | ST 10 | Aerosol volatility (with aerosol absoption/scattering) | Thermodenuder (+PASS-3, P15) | Dubey, LANL | Brad Flowers | Confirmed | 100 W at most | see P15 | see P15 | dubey at lanl.gov,bflowers at lanl.gov,aikenac at lanl.gov | 0.1 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ||||||||||||||
69 | P33 | filters samplers | Organosulfates and nitrooxy organosulfates | High-Volume Sampler PM2.5 or PM10 UPLC/ESI-HR-Q-TOFMS | Surratt et al., 2008 (JPCA) & 2009 (PNAS) | Jason Surratt (UNC) | TBD | Tentative (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 C | surratt_at_unc.edu | filter sampler, see column AF | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ||||||||||||
70 | P34 | ST 1 | Gas and particle-phase organic acids | APCI-MS | Thorsten Hoffmann; (University of Mainz, Germany) | Alexander Vogel | confirmed | 2.5 kW | ~ 1 m2 | one table needed to place the instrument, space in front needed to place the aerosol concentrator; total space: ~2m² | inlet 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.de | 2.5 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | 0 | ||||||
71 | P35 | ST 1 | particle phase acids | filter LC-MS | Thorsten Hoffmann/ Anna van Eijck | Anna van Eijck | confirmed | 500 W | pumps can be placed outside in a Zarges Box (2 m²) | - | PM 2.5 inlet and filter holder, maybe on a tower? 10m height | Aceton/Acetonitrile 1liter each | - | freezer space (-20 °C) | line voltage 220 or 230V~ available? | van.Eijck_at_uni-mainz.de | 0.25 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | |||||||||
72 | P4 | ST 9 | Size-Resolved CCN | DMT CCNc | Tony Prenni, CSU | Ezra Levin | Installed March 2010 | 1100 W. | 4' x 2' | Rack + 1 table: 9' x 3' | prenni_at_lamar.colostate.edu | 1.1 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ||||||||||||||
73 | P5 | ST 8 | Submicron NR Aerosol Composition | HR-ToF-AMS | DeCarlo et al., 2006 | J.L. Jimenez, CU Boulder | Pedro Campuzano Jost | Confirmed | 700 W instrument, + 1.5 kW for pumps + cal system + laptops | 3 x 19" racks (~52" x 28") | 6 m2 | 2 meters above container | N/A | N/A | N/A | N/A | jlj.colorado_at_gmail.com | 2.3 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ||||||||
74 | P6 | ST 8 | Potential Aerosol Mass (PAM) | PAM flowtube + AMS & SMPS | Kang et al., 2007 | J.L. Jimenez, CU Boulder | Brett Palm, Amber Ortega | Confirmed | 1.5 kW auxiliary instruments | 3 m2 (inc. accessories) | 3 m2 | 2 meters above container | 3 cylinders (N2, ZeroAir, SO2) | 3 cylinders (N2, ZeroAir, SO2) | N/A | N/A | PAM chamber will be mounted outside (roof?) and gas cylinders | Very 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.edu | 1.53 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ||||||
75 | P7 | ST 8 | Aerosol volatility | Thermal Denuder (+ AMS above) | Huffman et al., 2009a | J.L. Jimenez, CU Boulder | Patrick Hayes, Art Braundmeier | Confirmed | 400 W | 2 m2 | 2 m2 | 2 meters above container | N/A | N/A | N/A | N/A | Depending on what else we are doing, maybe will do part of the time. Interesting to sample output w/ PTRMS | jlj.colorado_at_gmail.com | 0.4 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | |||||||
76 | P8 | ST 3 | Organic aerosol molecular and class composition | Concentrator + TAG-HR-AMS | Williams et al., 2006 | JL Jimenez, CU Boulder, and A. Goldstein, Berkeley | Arthur Chan (Berkeley) & Pedro CJ (CU) | Confirmed | 15 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 m2 | 2 meters above container | remote desktop for troubleshooting | 1 or 2 | 1 | gas cylinders, GC needs dedicated 20 A circuit (requires NEMA 5-20 receptacle) | jlj.colorado_at_gmail.com, arthurchan_at_berkeley.edu, pcampuzanojost_at_gmail.com | 3.6 | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | 2 | |||||||
77 | P9 | filters samplers?? | EC/OC | 2 Medium Volume samplers | Chris Geron, EPA | John Ortega (Samplers) & Chris Geron (Data) | Confirmed (also some sampling before) | 3/4 hp gast pump per sampler, so 2 x 550W = 1.1 kW | Kelley 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.gov | filter sampler, see column AK | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | |||||||||||||||
78 | Meas ID | Location | Parameter | Technique | Reference | PI | People Operating Instrum. / Responsible for Data | Funding / Availability | Power Needs (including all pumps, laptops, etc.) | Instrument Footprint (sq ft. or m2) | Total Space needed including tables, chairs (sq ft or m2) | Special Needs | Comments | Contact Info | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0 | ||||||||||||
79 | To view this page as a (NON-editable) web page, go to: tiny.cc/BEACHON-RoMBAS_Planning | ||||||||||||||||||||||||||||||||||||
80 | KW (kVA really) | Amps | ST 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) | |||||||||||||||||||||||
81 | does NOT include filter samplers; see column AK | Grand Total for Instruments Only | 52 | 469 | Grand Total for Instruments Only | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 3.21 | 7.67 | ||||||||||||||||||||
82 | Power for A/C, approx as = instruments | 52 | 469 | Power for A/C, approx as = instruments | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 0.00 | 0 | |||||||||||||||||||||
83 | DOES include air conditioning for filter samplers or tower instruments since they are outside; see columns AK | Grand Total Power, Including 70% Capacity Factor (also circuit quantization) | 154 | 1,172 | Grand Total Power, Including 70% Capacity Factor (also circuit quantization) | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | 4.58 | 11 | ||||||||||||||||||||
84 | Note: This really is the total power (as some power at trailers is 220 V) | Installed Usable Power (A @ 110VAC) - Per IREA Feb2011 | 75 | 590 | Installed Usable Power (A @ 110VAC) - Per Dave Patterson | 12.5 | 21 | 12.5 | 12.5 | 0 wired, 2-4kVA from adjacent ST | 0 wired, 2-4kVA from adjacent ST | 0 | 0 | 0 | 0 | 2.40 | ?? | ||||||||||||||||||||
85 | Available Power (A @ 110 VAC) | -79 | -583 | Available Power (A @ 110 VAC) | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | #REF! | -2 | #VALUE! | |||||||||||||||||||||
86 |