Difference between revisions of "Size Dist Papers"
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*** size distributions are downweighted by a factor of 10 to emphasize composition data | *** size distributions are downweighted by a factor of 10 to emphasize composition data | ||
** 11 factors: vegetative burning, mobile 1, sulfate rich secondary aerosol, nitrate rich secondary aerosol, oil combustion, mobile 3, aged sea salt, airborne soil, sea salt, mobile 2, metals processing | ** 11 factors: vegetative burning, mobile 1, sulfate rich secondary aerosol, nitrate rich secondary aerosol, oil combustion, mobile 3, aged sea salt, airborne soil, sea salt, mobile 2, metals processing | ||
| + | |||
| + | * Ogulei, D., Hopke, P. K., Zhou, L., Pancras, J. P., Nair, N., Ondov, J. M., Source Apportionment of Baltimore aerosol from combined size distribution and chemical composition data, Atm. Env, 40, S396-S410, 2006 [http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6VH3-4KJ5T9R-5&_user=918210&_coverDate=12/31/2006&_rdoc=19&_fmt=high&_orig=browse&_srch=doc-info(%23toc%236055%232006%23999599999.8997%23633972%23FLA%23display%23Volume)&_cdi=6055&_sort=d&_docanchor=&_ct=33&_acct=C000047944&_version=1&_urlVersion=0&_userid=918210&md5=c14fffa210c8b611abc15c10cb2affcd abstract] | ||
| + | ** applies PLS and PMF to SMPS, APS, particle species, and gas-phase species in Baltimore in 6 days in July and August 2002 | ||
| + | ** 12 factors: oil-fired power plant emissoins, secondary nitrate I, local gasoline traffic, coal-fired power plant, secondary nitrate II, secondary sulfate, diesel emissions/bus maintenance, Quebec wildfire episode, nucleation, incinerator, airborne soil/road-way dust, steel plant emissions | ||
| + | |||
| + | * Lian, J., Kaduwela, A., Jackson, B., Gurer, K., Allen, P., Off-line diagonstic analyses of a three-dimensional PM model using two matrix factorization methods, Atm. Env., 40, 5759-5767, 2006 [http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6VH3-4KBVX33-F&_user=918210&_coverDate=09/30/2006&_rdoc=4&_fmt=high&_orig=browse&_srch=doc-info(%23toc%236055%232006%23999599969%23631888%23FLA%23display%23Volume)&_cdi=6055&_sort=d&_docanchor=&_ct=19&_acct=C000047944&_version=1&_urlVersion=0&_userid=918210&md5=f854cc364bb96f28c0913c74791b1cf0 abstract] | ||
| + | |||
| + | * Ogulei, D., Hopke, P. K., Wallace, L. A., Analysis of indoor particle size distributions in an occupied townhouse using positive matrix factorization, Indoor Air, 16, 204-215, 2006. [http://www3.interscience.wiley.com/journal/118604251/abstract abstract] | ||
*<font color="grey"> Han, J. S., Moon, K. J., Lee, S. J., Kim, Y. J., Ryu, S. Y., Yi, S. M., Size-resolved source apportionment of ambient particles by positive matrix factorization at Gosan backgrounds site in East Asia, ACP, 6, 211-233, 2006 [http://www.atmos-chem-phys.net/6/211/2006/acp-6-211-2006.html abstract] | *<font color="grey"> Han, J. S., Moon, K. J., Lee, S. J., Kim, Y. J., Ryu, S. Y., Yi, S. M., Size-resolved source apportionment of ambient particles by positive matrix factorization at Gosan backgrounds site in East Asia, ACP, 6, 211-233, 2006 [http://www.atmos-chem-phys.net/6/211/2006/acp-6-211-2006.html abstract] | ||
** applies PMF separately to 19 elements from 8 stages of DRUM sampler data in Gosan, Korea in spring 2002</font> | ** applies PMF separately to 19 elements from 8 stages of DRUM sampler data in Gosan, Korea in spring 2002</font> | ||
| + | |||
| + | =2007= | ||
| + | * Pere-Trepat, E., Kim, E., Paatero,P., Hopke, P. K., Source apportionment of time and size resolved ambient particulate matter measured with a rotating DRUM impactor, Atm. Env., 41, 5921-5933, 2007. [http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6VH3-4NB99N7-1&_user=918210&_coverDate=09/30/2007&_rdoc=10&_fmt=high&_orig=browse&_srch=doc-info(%23toc%236055%232007%23999589971%23665727%23FLA%23display%23Volume)&_cdi=6055&_sort=d&_docanchor=&_ct=23&_acct=C000047944&_version=1&_urlVersion=0&_userid=918210&md5=6deec57124b0137b0617f4f80dc2bded abstract] | ||
| + | |||
| + | =2008= | ||
| + | * Yatkin, S., Bayram, A., Source apportionmnet of PM10 and PM2.5 using positive matrix factorization and chemical mass balace in Izmir, Turkey, Sci. Total Env., 390, 109-123, 2008 [http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6V78-4R0CPPJ-1&_user=918210&_coverDate=02/01/2008&_rdoc=13&_fmt=high&_orig=browse&_srch=doc-info(%23toc%235836%232008%23996099998%23675997%23FLA%23display%23Volume)&_cdi=5836&_sort=d&_docanchor=&_ct=30&_acct=C000047944&_version=1&_urlVersion=0&_userid=918210&md5=4fd33054db8035a382de404c63009848 abstract] | ||
| + | |||
| + | =2009= | ||
| + | * Srivastava, A., Gupta, S., Jain, V. K., Winter-time size distribution and source apportionment of total suspended particulate matter and associated metals in Delhi, Atm. Res., 92, 88-99, 2009. [http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6V95-4TGS78M-1&_user=918210&_coverDate=03/31/2009&_rdoc=10&_fmt=high&_orig=browse&_srch=doc-info(%23toc%235889%232009%23999079998%23867050%23FLA%23display%23Volume)&_cdi=5889&_sort=d&_docanchor=&_ct=15&_acct=C000047944&_version=1&_urlVersion=0&_userid=918210&md5=237fce1025d81cff45af898007d80af5 abstract] | ||
| + | |||
| + | * Kleeman, M. J., Riddle, S. G., Robert, M. A., Jakober, C. A., Fine, P. M., Hays, M. D., Schauer, J. J., Hannigan, M. P., Source Apportionment of Fine (PM1.8) and Ultrafine (PM0.1) Airborne Particulate Matter during a Severe Winter Pollution Episode, ES&T, 43, 272-279, 2009. [http://pubs.acs.org/doi/abs/10.1021/es800400m?journalCode=esthag&quickLinkVolume=43&quickLinkPage=272&volume=43 abstract] | ||
Revision as of 19:39, 25 June 2009
2004
- Kim, E., Hopke, P. K., Larson, T. V., Covert, D. S., Analysis of Ambient Particle Size Distributions Using Unmix and Positive Matrix Factorization, ES&T, 38, 202-209, 2004. abstract
- applies PMF and UNMIX to DMPS data in Seattle in winter 2000-2001
- 4 factors: residential wood burning, likely secondary aerosol, diesel emissions, motor vehicle emissions
2005
- Zhou, L., Hopke, P. K., Stanier, C. O., Pandis, S. N., Ondov, J. M., Pancras, J. P., Investigation of the relationship between chemical composition and size distribution of airborne particles by partial least squares and positive matrix factorization, JGR, 110, D07S18, 2005 abstract
- applies Partial Least Squares (PLS) and PMF to SMPS, APS, PM2.5 species, and gas phase species in Pittsburgh for 5 days in July 2001
- 11 factors: secondary nitrate I, remote traffic, secondary nitrate II, secondary sulfate, lead, diesel traffic, coal-fired power plant, steel mill, nucleation, local traffic, coke plant
- Zhou, L., Kim, E., Hopke, P. K., Stanier, C. O., Pandis, S. N., Mining airborne particulate size distribution data by positive matrix factorization, JGR, 110, D07S19, 2005 abstract
- applies PMF to SMPS, APS, PM2.5 species, and gas phase species in Pittsburgh for each month (12 mo) from July 2001 to June 2002
- 5 factors: local traffic, nucleation, mixed factors representing secondary and aged primary aerosol, fresh primary aerosol from local combustion sources; stationary combustion sources; remote Pittsburgh traffic, local point sources
2006
- Larson, T. V., Covert, D. S., Kim, E., Elleman, R., Schreuder, A. B., Lumley, T., Combining size distribution and chemical species measurements into a multivariate receptor model of PM2.5, JGR, 111, D10S09, 2006 abstract
- applies ME2 to DMPS, APS, speciated data from from filters (with "missing mass" as a species" in Seattle from Feb. 2000 to June 2003
- both mass and volume are constrained, and linked by the "average apparent particle density" with Q-terms for mass and volume
- size distributions are downweighted by a factor of 10 to emphasize composition data
- 11 factors: vegetative burning, mobile 1, sulfate rich secondary aerosol, nitrate rich secondary aerosol, oil combustion, mobile 3, aged sea salt, airborne soil, sea salt, mobile 2, metals processing
- applies ME2 to DMPS, APS, speciated data from from filters (with "missing mass" as a species" in Seattle from Feb. 2000 to June 2003
- Ogulei, D., Hopke, P. K., Zhou, L., Pancras, J. P., Nair, N., Ondov, J. M., Source Apportionment of Baltimore aerosol from combined size distribution and chemical composition data, Atm. Env, 40, S396-S410, 2006 abstract
- applies PLS and PMF to SMPS, APS, particle species, and gas-phase species in Baltimore in 6 days in July and August 2002
- 12 factors: oil-fired power plant emissoins, secondary nitrate I, local gasoline traffic, coal-fired power plant, secondary nitrate II, secondary sulfate, diesel emissions/bus maintenance, Quebec wildfire episode, nucleation, incinerator, airborne soil/road-way dust, steel plant emissions
- Lian, J., Kaduwela, A., Jackson, B., Gurer, K., Allen, P., Off-line diagonstic analyses of a three-dimensional PM model using two matrix factorization methods, Atm. Env., 40, 5759-5767, 2006 abstract
- Ogulei, D., Hopke, P. K., Wallace, L. A., Analysis of indoor particle size distributions in an occupied townhouse using positive matrix factorization, Indoor Air, 16, 204-215, 2006. abstract
- Han, J. S., Moon, K. J., Lee, S. J., Kim, Y. J., Ryu, S. Y., Yi, S. M., Size-resolved source apportionment of ambient particles by positive matrix factorization at Gosan backgrounds site in East Asia, ACP, 6, 211-233, 2006 abstract
- applies PMF separately to 19 elements from 8 stages of DRUM sampler data in Gosan, Korea in spring 2002
2007
- Pere-Trepat, E., Kim, E., Paatero,P., Hopke, P. K., Source apportionment of time and size resolved ambient particulate matter measured with a rotating DRUM impactor, Atm. Env., 41, 5921-5933, 2007. abstract
2008
- Yatkin, S., Bayram, A., Source apportionmnet of PM10 and PM2.5 using positive matrix factorization and chemical mass balace in Izmir, Turkey, Sci. Total Env., 390, 109-123, 2008 abstract
2009
- Srivastava, A., Gupta, S., Jain, V. K., Winter-time size distribution and source apportionment of total suspended particulate matter and associated metals in Delhi, Atm. Res., 92, 88-99, 2009. abstract
- Kleeman, M. J., Riddle, S. G., Robert, M. A., Jakober, C. A., Fine, P. M., Hays, M. D., Schauer, J. J., Hannigan, M. P., Source Apportionment of Fine (PM1.8) and Ultrafine (PM0.1) Airborne Particulate Matter during a Severe Winter Pollution Episode, ES&T, 43, 272-279, 2009. abstract
