Search

Your search keyword '"Ogren J"' showing total 430 results
Start Over Author "Ogren J"
430 results on '"Ogren J"'

101. Atmospheric Radiation Measurements Aerosol Intensive Operating Period: Comparison of aerosol scattering during coordinated flights

Author

Center for Interdisciplinary Remotely Piloted Aircraft Studies (CIRPAS), Hallar, A. G., Strawa, A. W., Schmid, B., Andrews, E., Ogren, J., Sheridan, P., Ferrare, R., Covert, D., Elleman, R., Jonsson, H., Bokarius, K., Luu, A., Center for Interdisciplinary Remotely Piloted Aircraft Studies (CIRPAS), Hallar, A. G., Strawa, A. W., Schmid, B., Andrews, E., Ogren, J., Sheridan, P., Ferrare, R., Covert, D., Elleman, R., Jonsson, H., Bokarius, K., and Luu, A.

Abstract

In May 2003, a Twin Otter airplane, equipped with instruments for making in situ measurements of aerosol optical properties, was deployed during the Atmospheric Radiation Measurements (ARM) Program’s Aerosol Intensive Operational Period in Oklahoma. Several of the Twin Otter flights were flown in formation with an instrumented light aircraft (Cessna 172XP) that makes routine in situ aerosol profile flights over the site. This paper presents comparisons of measured scattering coefficients at 467 nm, 530 nm, and 675 nm between identical commercial nephelometers aboard each aircraft. Overall, the agreement between the two nephelometers decreases with longer wavelength. During the majority of the flights, the Twin Otter flew with a diffuser inlet while the Cessna had a 1 mm impactor, allowing for an estimation of the fine mode fraction aloft. The fine mode fraction aloft was then compared to the results of a ground-based nephelometer. Comparisons are also provided in which both nephelometers operated with identical 1 mm impactors. These scattering coefficient comparisons are favorable at the longer wavelengths (i.e., 530 nm and 675 nm), yet differed by approximately 30% at 467 nm. Mie scattering calculations were performed using size distribution measurements, made during the level flight legs. Results are also presented from Cadenza, a new continuous wave cavity ring-down (CW-CRD) instrument, which compared favorably (i.e., agreed within 2%) with data from other instruments aboard the Twin Otter. With this paper, we highlight the significant implications of coarse mode (larger than 1 mm) aerosol aloft with respect to aerosol optical properties.

Published
2006

103. Aerosol decadal trends – Part 1: In-situ optical measurements at GAW and IMPROVE stations

Author

Collaud Coen, M., primary, Andrews, E., additional, Asmi, A., additional, Baltensperger, U., additional, Bukowiecki, N., additional, Day, D., additional, Fiebig, M., additional, Fjaeraa, A. M., additional, Flentje, H., additional, Hyvärinen, A., additional, Jefferson, A., additional, Jennings, S. G., additional, Kouvarakis, G., additional, Lihavainen, H., additional, Lund Myhre, C., additional, Malm, W. C., additional, Mihapopoulos, N., additional, Molenar, J. V., additional, O'Dowd, C., additional, Ogren, J. A., additional, Schichtel, B. A., additional, Sheridan, P., additional, Virkkula, A., additional, Weingartner, E., additional, Weller, R., additional, and Laj, P., additional

Published
2012
Full Text
View/download PDF

104. Aerosol decadal trends – Part 2: In-situ aerosol particle number concentrations at GAW and ACTRIS stations

Author

Asmi, A., primary, Collaud Coen, M., additional, Ogren, J. A., additional, Andrews, E., additional, Sheridan, P., additional, Jefferson, A., additional, Weingartner, E., additional, Baltensperger, U., additional, Bukowiecki, N., additional, Lihavainen, H., additional, Kivekäs, N., additional, Asmi, E., additional, Aalto, P. P., additional, Kulmala, M., additional, Wiedensohler, A., additional, Birmili, W., additional, Hamed, A., additional, O'Dowd, C., additional, Jennings, S. G., additional, Weller, R., additional, Flentje, H., additional, Mari Fjaeraa, A., additional, Fiebig, M., additional, Lund Myhre, C., additional, Hallar, A. G., additional, and Laj, P., additional

Published
2012
Full Text
View/download PDF

105. Supplementary material to "Aerosol decadal trends – Part 1: In-situ optical measurements at GAW and IMPROVE stations"

Author

Collaud Coen, M., primary, Andrews, E., additional, Asmi, A., additional, Baltensperger, U., additional, Bukowiecki, N., additional, Day, D., additional, Fiebig, M., additional, Fjaeraa, A. M., additional, Flentje, H., additional, Hyvärinen, A., additional, Jefferson, A., additional, Jennings, S. G., additional, Kouvarakis, G., additional, Lihavainen, H., additional, Lund Myhre, C., additional, Malm, W. C., additional, Mihapopoulos, N., additional, Molenar, J. V., additional, O'Dowd, C., additional, Ogren, J. A., additional, Schichtel, B. A., additional, Sheridan, P., additional, Virkkula, A., additional, Weingartner, E., additional, Weller, R., additional, and Laj, P., additional

Published
2012
Full Text
View/download PDF

106. Supplementary material to "Aerosol decadal trends – Part 2: In-situ aerosol particle number concentrations at GAW and ACTRIS stations"

Author

Asmi, A., primary, Collaud Coen, M., additional, Ogren, J. A., additional, Andrews, E., additional, Sheridan, P., additional, Jefferson, A., additional, Weingartner, E., additional, Baltensperger, U., additional, Bukowiecki, N., additional, Lihavainen, H., additional, Kivekäs, N., additional, Asmi, E., additional, Aalto, P. P., additional, Kulmala, M., additional, Wiedensohler, A., additional, Birmili, W., additional, Hamed, A., additional, O'Dowd, C., additional, Jennings, S. G., additional, Weller, R., additional, Flentje, H., additional, Mari Fjaeraa, A., additional, Fiebig, M., additional, Lund Myhre, C., additional, Hallar, A. G., additional, and Laj, P., additional

Published
2012
Full Text
View/download PDF

108. Mobility particle size spectrometers: harmonization of technical standards and data structure to facilitate high quality long-term observations of atmospheric particle number size distributions

Author

Wiedensohler, A., primary, Birmili, W., additional, Nowak, A., additional, Sonntag, A., additional, Weinhold, K., additional, Merkel, M., additional, Wehner, B., additional, Tuch, T., additional, Pfeifer, S., additional, Fiebig, M., additional, Fjäraa, A. M., additional, Asmi, E., additional, Sellegri, K., additional, Depuy, R., additional, Venzac, H., additional, Villani, P., additional, Laj, P., additional, Aalto, P., additional, Ogren, J. A., additional, Swietlicki, E., additional, Williams, P., additional, Roldin, P., additional, Quincey, P., additional, Hüglin, C., additional, Fierz-Schmidhauser, R., additional, Gysel, M., additional, Weingartner, E., additional, Riccobono, F., additional, Santos, S., additional, Grüning, C., additional, Faloon, K., additional, Beddows, D., additional, Harrison, R., additional, Monahan, C., additional, Jennings, S. G., additional, O'Dowd, C. D., additional, Marinoni, A., additional, Horn, H.-G., additional, Keck, L., additional, Jiang, J., additional, Scheckman, J., additional, McMurry, P. H., additional, Deng, Z., additional, Zhao, C. S., additional, Moerman, M., additional, Henzing, B., additional, de Leeuw, G., additional, Löschau, G., additional, and Bastian, S., additional

Published
2012
Full Text
View/download PDF

116. Characteristics, sources, and transport of aerosols measured in spring 2008 during the aerosol, radiation, and cloud processes affecting Arctic Climate (ARCPAC) Project

Author

Brock, C. A., primary, Cozic, J., additional, Bahreini, R., additional, Froyd, K. D., additional, Middlebrook, A. M., additional, McComiskey, A., additional, Brioude, J., additional, Cooper, O. R., additional, Stohl, A., additional, Aikin, K. C., additional, de Gouw, J. A., additional, Fahey, D. W., additional, Ferrare, R. A., additional, Gao, R.-S., additional, Gore, W., additional, Holloway, J. S., additional, Hübler, G., additional, Jefferson, A., additional, Lack, D. A., additional, Lance, S., additional, Moore, R. H., additional, Murphy, D. M., additional, Nenes, A., additional, Novelli, P. C., additional, Nowak, J. B., additional, Ogren, J. A., additional, Peischl, J., additional, Pierce, R. B., additional, Pilewskie, P., additional, Quinn, P. K., additional, Ryerson, T. B., additional, Schmidt, K. S., additional, Schwarz, J. P., additional, Sodemann, H., additional, Spackman, J. R., additional, Stark, H., additional, Thomson, D. S., additional, Thornberry, T., additional, Veres, P., additional, Watts, L. A., additional, Warneke, C., additional, and Wollny, A. G., additional

Published
2011
Full Text
View/download PDF

117. Carbonaceous aerosols contributed by traffic and solid fuel burning at a polluted rural site in Northwestern England

Author

Liu, D., primary, Allan, J., additional, Corris, B., additional, Flynn, M., additional, Andrews, E., additional, Ogren, J., additional, Beswick, K., additional, Bower, K., additional, Burgess, R., additional, Choularton, T., additional, Dorsey, J., additional, Morgan, W., additional, Williams, P. I., additional, and Coe, H., additional

Published
2011
Full Text
View/download PDF

118. Characterization and intercomparison of aerosol absorption photometers: result of two intercomparison workshops

Author

Müller, T., primary, Henzing, J. S., additional, de Leeuw, G., additional, Wiedensohler, A., additional, Alastuey, A., additional, Angelov, H., additional, Bizjak, M., additional, Collaud Coen, M., additional, Engström, J. E., additional, Gruening, C., additional, Hillamo, R., additional, Hoffer, A., additional, Imre, K., additional, Ivanow, P., additional, Jennings, G., additional, Sun, J. Y., additional, Kalivitis, N., additional, Karlsson, H., additional, Komppula, M., additional, Laj, P., additional, Li, S.-M., additional, Lunder, C., additional, Marinoni, A., additional, Martins dos Santos, S., additional, Moerman, M., additional, Nowak, A., additional, Ogren, J. A., additional, Petzold, A., additional, Pichon, J. M., additional, Rodriquez, S., additional, Sharma, S., additional, Sheridan, P. J., additional, Teinilä, K., additional, Tuch, T., additional, Viana, M., additional, Virkkula, A., additional, Weingartner, E., additional, Wilhelm, R., additional, and Wang, Y. Q., additional

Published
2011
Full Text
View/download PDF

120. Particle mobility size spectrometers: harmonization of technical standards and data structure to facilitate high quality long-term observations of atmospheric particle number size distributions

Author

Wiedensohler, A., primary, Birmili, W., additional, Nowak, A., additional, Sonntag, A., additional, Weinhold, K., additional, Merkel, M., additional, Wehner, B., additional, Tuch, T., additional, Pfeifer, S., additional, Fiebig, M., additional, Fjäraa, A. M., additional, Asmi, E., additional, Sellegri, K., additional, Depuy, R., additional, Venzac, H., additional, Villani, P., additional, Laj, P., additional, Aalto, P., additional, Ogren, J. A., additional, Swietlicki, E., additional, Roldin, P., additional, Williams, P., additional, Quincey, P., additional, Hüglin, C., additional, Fierz-Schmidhauser, R., additional, Gysel, M., additional, Weingartner, E., additional, Riccobono, F., additional, Santos, S., additional, Grüning, C., additional, Faloon, K., additional, Beddows, D., additional, Harrison, R. M., additional, Monahan, C., additional, Jennings, S. G., additional, O'Dowd, C. D., additional, Marinoni, A., additional, Horn, H.-G., additional, Keck, L., additional, Jiang, J., additional, Scheckman, J., additional, McMurry, P. H., additional, Deng, Z., additional, Zhao, C. S., additional, Moerman, M., additional, Henzing, B., additional, and de Leeuw, G., additional

Published
2010
Full Text
View/download PDF

121. Supplementary material to "Characteristics, sources, and transport of aerosols measured in spring 2008 during the aerosol, radiation, and cloud processes affecting Arctic climate (ARCPAC) project"

Author

Brock, C. A., primary, Cozic, J., additional, Bahreini, R., additional, Froyd, K. D., additional, Middlebrook, A. M., additional, McComiskey, A., additional, Brioude, J., additional, Cooper, O. R., additional, Stohl, A., additional, Aikin, K. C., additional, de Gouw, J. A., additional, Fahey, D. W., additional, Ferrare, R. A., additional, Gao, R.-S., additional, Gore, W., additional, Holloway, J. S., additional, Hübler, G., additional, Jefferson, A., additional, Lack, D. A., additional, Lance, S., additional, Moore, R. H., additional, Murphy, D. M., additional, Nenes, A., additional, Novelli, P. C., additional, Nowak, J. B., additional, Ogren, J. A., additional, Peischl, J., additional, Pierce, R. B., additional, Pilewskie, P., additional, Quinn, P. K., additional, Ryerson, T. B., additional, Schmidt, K. S., additional, Schwarz, J. P., additional, Sodemann, H., additional, Spackman, J. R., additional, Stark, H., additional, Thomson, D. S., additional, Thornberry, T., additional, Veres, P., additional, Watts, L. A., additional, Warneke, C., additional, and Wollny, A. G., additional

Published
2010
Full Text
View/download PDF

122. Characteristics, sources, and transport of aerosols measured in spring 2008 during the aerosol, radiation, and cloud processes affecting Arctic climate (ARCPAC) project

Author

Brock, C. A., primary, Cozic, J., additional, Bahreini, R., additional, Froyd, K. D., additional, Middlebrook, A. M., additional, McComiskey, A., additional, Brioude, J., additional, Cooper, O. R., additional, Stohl, A., additional, Aikin, K. C., additional, de Gouw, J. A., additional, Fahey, D. W., additional, Ferrare, R. A., additional, Gao, R.-S., additional, Gore, W., additional, Holloway, J. S., additional, Hübler, G., additional, Jefferson, A., additional, Lack, D. A., additional, Lance, S., additional, Moore, R. H., additional, Murphy, D. M., additional, Nenes, A., additional, Novelli, P. C., additional, Nowak, J. B., additional, Ogren, J. A., additional, Peischl, J., additional, Pierce, R. B., additional, Pilewskie, P., additional, Quinn, P. K., additional, Ryerson, T. B., additional, Schmidt, K. S., additional, Schwarz, J. P., additional, Sodemann, H., additional, Spackman, J. R., additional, Stark, H., additional, Thomson, D. S., additional, Thornberry, T., additional, Veres, P., additional, Watts, L. A., additional, Warneke, C., additional, and Wollny, A. G., additional

Published
2010
Full Text
View/download PDF

123. Carbonaceous aerosols contributed by traffic and solid fuel burning at a polluted rural site in Northwestern England

Author

Liu, D., primary, Allan, J., additional, Corris, B., additional, Flynn, M., additional, Andrews, E., additional, Ogren, J., additional, Beswick, K., additional, Bower, K., additional, Burgess, R., additional, Choularton, T., additional, Dorsey, J., additional, Morgan, W., additional, Williams, P., additional, and Coe, H., additional

Published
2010
Full Text
View/download PDF

124. Supplementary material to "Carbonaceous aerosols contributed by traffic and solid fuel burning at a polluted rural site in Northwestern England"

Author

Liu, D., primary, Allan, J., additional, Corris, B., additional, Flynn, M., additional, Andrews, E., additional, Ogren, J., additional, Beswick, K., additional, Bower, K., additional, Burgess, R., additional, Choularton, T., additional, Dorsey, J., additional, Morgan, W., additional, Williams, P., additional, and Coe, H., additional

Published
2010
Full Text
View/download PDF

126. Innovative Manufacturing Process for Defect Free, Affordable, High Pressure, Thin Walled, Hydraulic Tubing

Author

Miranda, W., primary, Takiguchi, G., additional, Shimabukuro, T., additional, McLennan, L., additional, Agajanian, C., additional, Quintero, L., additional, Mismar, D., additional, Abdulla, J., additional, Andrews, C., additional, Hahn, M., additional, Fodran, E., additional, Lee, E. W., additional, Garmestani, H., additional, Conner, R. D., additional, Brick, D., additional, Ogren, J., additional, and Es-Said, O. S., additional

Published
2010
Full Text
View/download PDF

129. CCN predictions using simplified assumptions of organic aerosol composition and mixing state: a synthesis from six different locations

Author

Ervens, B., primary, Cubison, M. J., additional, Andrews, E., additional, Feingold, G., additional, Ogren, J. A., additional, Jimenez, J. L., additional, Quinn, P. K., additional, Bates, T. S., additional, Wang, J., additional, Zhang, Q., additional, Coe, H., additional, Flynn, M., additional, and Allan, J. D., additional

Published
2010
Full Text
View/download PDF

130. Explaining global surface aerosol number concentrations in terms of primary emissions and particle formation

Author

Spracklen, D. V., primary, Carslaw, K. S., additional, Merikanto, J., additional, Mann, G. W., additional, Reddington, C. L., additional, Pickering, S., additional, Ogren, J. A., additional, Andrews, E., additional, Baltensperger, U., additional, Weingartner, E., additional, Boy, M., additional, Kulmala, M., additional, Laakso, L., additional, Lihavainen, H., additional, Kivekäs, N., additional, Komppula, M., additional, Mihalopoulos, N., additional, Kouvarakis, G., additional, Jennings, S. G., additional, O'Dowd, C., additional, Birmili, W., additional, Wiedensohler, A., additional, Weller, R., additional, Gras, J., additional, Laj, P., additional, Sellegri, K., additional, Bonn, B., additional, Krejci, R., additional, Laaksonen, A., additional, Hamed, A., additional, Minikin, A., additional, Harrison, R. M., additional, Talbot, R., additional, and Sun, J., additional

Published
2010
Full Text
View/download PDF

131. Tensile Properties and Microstructures of Laser-Formed Ti-6Al-4V

Author

Alcisto, J., primary, Enriquez, A., additional, Garcia, H., additional, Hinkson, S., additional, Steelman, T., additional, Silverman, E., additional, Valdovino, P., additional, Gigerenzer, H., additional, Foyos, J., additional, Ogren, J., additional, Dorey, J., additional, Karg, K., additional, McDonald, T., additional, and Es-Said, O. S., additional

Published
2010
Full Text
View/download PDF

132. Characterization and intercomparison of aerosol absorption photometers: result of two intercomparison workshops

Author

Müller, T., primary, Henzing, J. S., additional, de Leeuw, G., additional, Wiedensohler, A., additional, Alastuey, A., additional, Angelov, H., additional, Bizjak, M., additional, Collaud Coen, M., additional, Engström, J. E., additional, Gruening, C., additional, Hillamo, R., additional, Hoffer, A., additional, Imre, K., additional, Ivanow, P., additional, Jennings, G., additional, Sun, J. Y., additional, Kalivitis, N., additional, Karlsson, H., additional, Komppula, M., additional, Laj, P., additional, Li, S.-M., additional, Lunder, C., additional, Marinoni, A., additional, Martins dos Santos, S., additional, Moerman, M., additional, Nowak, A., additional, Ogren, J. A., additional, Petzold, A., additional, Pichon, J. M., additional, Rodriquez, S., additional, Sharma, S., additional, Sheridan, P. J., additional, Teinilä, K., additional, Tuch, T., additional, Viana, M., additional, Virkkula, A., additional, Weingartner, E., additional, Wilhelm, R., additional, and Wang, Y. Q., additional

Published
2010
Full Text
View/download PDF

134. Explaining global surface aerosol number concentrations in terms of primary emissions and particle formation

Author

Spracklen, D. V., primary, Carslaw, K. S., additional, Merikanto, J., additional, Mann, G. W., additional, Pickering, S., additional, Ogren, J. A., additional, Andrews, E., additional, Baltensperger, U., additional, Weingartner, E., additional, Boy, M., additional, Kulmala, M., additional, Laakso, L., additional, Lihavainen, H., additional, Kivekäs, N., additional, Mihalopoulos, N., additional, Kouvarakis, G., additional, Jennings, S. G., additional, Birmili, W., additional, Wiedensohler, A., additional, Weller, R., additional, Laj, P., additional, Sellegri, K., additional, Bonn, B., additional, and Krejci, R., additional

Published
2009
Full Text
View/download PDF

135. CCN predictions using simplified assumptions of organic aerosol composition and mixing state: a synthesis from six different locations

Author

Ervens, B., primary, Cubison, M. J., additional, Andrews, E., additional, Feingold, G., additional, Ogren, J. A., additional, Jimenez, J. L., additional, Quinn, P. K., additional, Bates, T. S., additional, Wang, J., additional, Zhang, Q., additional, Coe, H., additional, Flynn, M., additional, and Allan, J. D., additional

Published
2009
Full Text
View/download PDF

137. Stratospheric aerosol light absorption before and after El Chichon

Author

Clarke, A. D, Charlson, R. J, and Ogren, J. A

Subjects
Geophysics
Abstract

Direct in-situ measurements of aerosol light absorption before, during, and after the eruption of Mt. St. Helens and El Chichon reveal the presence of light absorbing species at all times. Large enhancements which appear to drop rapidly with time are found at certain locations immediately following volcanic events. Although a general patchiness is present in the aerosol and its associated absorption coefficient, post eruption values appear to remain elevated in the mean when compared to early 1979 data prior to the El Chichon eruption. From the data collected for this period, lower bounds for the single scatter albedo are presented along with implications for associated radiative effects.

Published
1983

138. Measurements of the absorption coefficient of stratospheric aerosols

Author

Ogren, J. A, Ahlquist, N. C, Clarke, A. D, and Charlson, R. J

Subjects
Geophysics
Abstract

The absorption coefficients of stratospheric aerosols are measured using a variation on the integrating plate method. The technique is based on the decrease in the transparency of a substrate when an absorbing aerosol is deposited on it. A Lambert scatterer is placed behind the substrate to integrate forward scattered light and minimize the effect of scattering on the measurement. The low pressure in the stratosphere is used for the direct impaction of particles onto a narrow strip of opal glass. The eight samples collected had a median value of 4 x 10 to the -9th m with an uncertainty of + or - 5 x 10 to the -9th m. If this absorption is due to graphitic carbon, then its concentration is estimated at about 0.4 ng/cu m, or about 0.25% of the total aerosol mass concentration. Estimates of the aerosol scattering coefficients based on satellite extinction inversions result in an aerosol single-scattering albedo in the range of 0.96-1.0.

Published
1981

139. Vertical profiles of optical and microphysical particle properties above the northern Indian Ocean during CARDEX 2012.

Author

Höpner, F., Bender, F. A. -M., Ekman, A. M. L., Praveen, P. S., Bosch, C., Ogren, J. A., Andersson, A., Gustafsson, Ö., and Ramanathan, V.

Abstract

A detailed analysis of optical and microphysical properties of aerosol particles during the dry winter monsoon season above the northern Indian Ocean is presented. The Cloud Aerosol Radiative Forcing Experiment (CARDEX), conducted in February and March 2012 at the Maldives Climate Observatory on Hanimaadhoo island (MCOH) in the Republic of the Maldives, used autonomous unmanned aerial vehicles (AUAV) to perform vertical in-situ measurements of particle number concentration, particle number size distribution as well as particle absorption. These measurements were used together with surface-based Mini Micro Pulse Lidar (MiniMPL) observations and aerosol in-situ and off-line measurements to investigate the vertical distribution of aerosol particles. Air masses were mainly advected over the Indian subcontinent and the Arabian Peninsula. Mean surface aerosol number concentration was 1717±604cm-3 and the highest values were found in air masses from the Bay of Bengal and Indo-Gangetic Plain (2247±370cm-3). Investigations of the free tropospheric air showed that elevated aerosol layers with up to 3 times higher aerosol number concentrations than at the surface occurred mainly during periods with air masses originating from the Bay of Bengal and the Indo-Gangetic Plain. Compared to the Indian Ocean Experiment (INDOEX) conducted in winter 1999, elevated aerosol layers with increased aerosol number concentration were observed more frequently in 2012. However, lower particle absorption at the surface (σabs(520nm) = 8.5±4.2Wm-1) was found during CARDEX compared to INDOEX 1999. By combining vertical in-situ measured particle absorption with scattering calculated with Mie-theory, layers with single-scattering albedo (SSA) values of specific source regions were derived and utilized to calculate vertical particle absorption profiles from MiniMPL profiles. SSA surface values for dry conditions were found to be 0.94±0.02 and 0.91±0.02 for air masses from the Arabian Sea (and Middle East countries) and India (and Bay of Bengal), respectively. Lidar-derived particle absorption profiles showed both a similar magnitude and structure as the in-situ profiles measured with the AUAV. However, primarily due to insuffcient accuracy in the SSA estimates, the lidar-derived absorption profiles have large uncertainties and are generally weakly correlated to vertically in-situ measured particle absorption. Furthermore, the mass absorption effciency (MAE) for the northern Indian Ocean during the dry monsoon season was calculated to determine equivalent black carbon (EBC) concentrations from particle absorption measurements. A mean MAE of 11.6 and 6.9m2 g-1 for 520 and 880 nm, respectively, was found, likely representing internally mixed BC containing particles. Lower MAE values for 880nm were found for air masses originating from dust regions such as the Arabian Peninsula and western Asia (5.6m2 g-1) or from closer source regions as southern India (4.3m2 g-1). [ABSTRACT FROM AUTHOR]

Published
2015

140. Effect of Tempering and Baking on the Charpy Impact Energy of Hydrogen-Charged 4340 Steel.

Author

Mori, K., Lee, E., Frazier, W., Niji, K., Battel, G., Tran, A., Iriarte, E., Perez, O., Ruiz, H., Choi, T., Stoyanov, P., Ogren, J., Alrashaid, J., and Es-Said, O.

Subjects
DEFORMATIONS (Mechanics), STEEL, HYDROGEN, CHARGING effects, METALLURGY
Abstract

Tempered AISI 4340 steel was hydrogen charged and tested for impact energy. It was found that samples tempered above 468 °C (875 °F) and subjected to hydrogen charging exhibited lower impact energy values when compared to uncharged samples. No significant difference between charged and uncharged samples tempered below 468 °C (875 °F) was observed. Neither exposure nor bake time had any significant effect on impact energy within the tested ranges. [ABSTRACT FROM AUTHOR]

Published
2015
Full Text
View/download PDF

141. Pan‐Arctic enhancements of light absorbing aerosol concentrations due to North American boreal forest fires during summer 2004

Author

Stohl, A., primary, Andrews, E., additional, Burkhart, J. F., additional, Forster, C., additional, Herber, A., additional, Hoch, S. W., additional, Kowal, D., additional, Lunder, C., additional, Mefford, T., additional, Ogren, J. A., additional, Sharma, S., additional, Spichtinger, N., additional, Stebel, K., additional, Stone, R., additional, Ström, J., additional, Tørseth, K., additional, Wehrli, C., additional, and Yttri, K. E., additional

Published
2006
Full Text
View/download PDF

144. Intercomparisons and Aerosol Calibrations of 12 Commercial Integrating Nephelometers of Three Manufacturers

Author

Heintzenberg, J., primary, Wiedensohler, A., primary, Tuch, T. M., additional, Covert, D. S., additional, Sheridan, P., additional, Ogren, J. A., additional, Gras, J., additional, Nessler, R., additional, Kleefeld, C., additional, Kalivitis, N., additional, Aaltonen, V., additional, Wilhelm, R-T., additional, and Havlicek, M., additional

Published
2006
Full Text
View/download PDF

145. Aerosol direct radiative effects over the northwest Atlantic, northwest Pacific, and North Indian Oceans: estimates based on in-situ chemical and optical measurements and chemical transport modeling

Author

Bates, T. S., primary, Anderson, T. L., additional, Baynard, T., additional, Bond, T., additional, Boucher, O., additional, Carmichael, G., additional, Clarke, A., additional, Erlick, C., additional, Guo, H., additional, Horowitz, L., additional, Howell, S., additional, Kulkarni, S., additional, Maring, H., additional, McComiskey, A., additional, Middlebrook, A., additional, Noone, K., additional, O'Dowd, C. D., additional, Ogren, J., additional, Penner, J., additional, Quinn, P. K., additional, Ravishankara, A. R., additional, Savoie, D. L., additional, Schwartz, S. E., additional, Shinozuka, Y., additional, Tang, Y., additional, Weber, R. J., additional, and Wu, Y., additional

Published
2006
Full Text
View/download PDF

147. Comparison of methods for deriving aerosol asymmetry parameter

Author

Andrews, E., primary, Sheridan, P. J., additional, Fiebig, M., additional, McComiskey, A., additional, Ogren, J. A., additional, Arnott, P., additional, Covert, D., additional, Elleman, R., additional, Gasparini, R., additional, Collins, D., additional, Jonsson, H., additional, Schmid, B., additional, and Wang, J., additional

Published
2006
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results