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Full-Text Articles in Biochemistry
Laboratory Characterization Of Pm Emissions From Combustion Of Wildland Biomass Fuels, S. Hosseini, S. P. Urbanski, P. Dixit, L. Qi, I. R. Burling, Robert J. Yokelson, T. J. Johnson, M. Shrivastava, H. S. Jung, D. R. Weise, J. W. Miller, D. R. Cocker Iii
Laboratory Characterization Of Pm Emissions From Combustion Of Wildland Biomass Fuels, S. Hosseini, S. P. Urbanski, P. Dixit, L. Qi, I. R. Burling, Robert J. Yokelson, T. J. Johnson, M. Shrivastava, H. S. Jung, D. R. Weise, J. W. Miller, D. R. Cocker Iii
Chemistry and Biochemistry Faculty Publications
[1] Particle emissions from open burning of southwestern (SW) and southeastern (SE) U.S. fuel types during 77 controlled laboratory burns are presented. The fuels include SW vegetation types: ceanothus, chamise/scrub oak, coastal sage scrub, California sagebrush, manzanita, maritime chaparral, masticated mesquite, oak savanna, and oak woodland, as well as SE vegetation types: 1 year, 2 year rough, pocosin, chipped understory, understory hardwood, and pine litter. The SW fuels burned at higher modified combustion efficiency (MCE) than the SE fuels resulting in lower particulate matter mass emission factor. Particle mass distributions for six fuels and particle number emission for all fuels …
Pitfalls With The Use Of Enhancement Ratios Or Normalized Excess Mixing Ratios Measured In Plumes To Characterize Pollution Sources And Aging, Robert J. Yokelson, Meinrat O. Andreae, S. K. Akagi
Pitfalls With The Use Of Enhancement Ratios Or Normalized Excess Mixing Ratios Measured In Plumes To Characterize Pollution Sources And Aging, Robert J. Yokelson, Meinrat O. Andreae, S. K. Akagi
Chemistry and Biochemistry Faculty Publications
Normalized excess mixing ratios (NEMRs), also known as enhancement ratios, are a common way to characterize plumes of pollution in atmospheric research. As single-source pollutant plumes disperse in the atmosphere, they are diluted by mixing with the adjacent background air. Changes in the composition of this background air can cause large changes to the NEMR that is subsequently measured by remote-sensing, airborne, or ground-based instruments. This scenario is common when boundary layer plumes enter the free troposphere and could also impact long-range transport or plumes near the top of the troposphere. We provide a context for these issues and an …
Role Of Resonance-Enhanced Multiphoton Excitation In High-Harmonic Generation Of N-2: A Time-Dependent Density-Functional-Theory Study, Xi Chu, Gerrit C. Groenenboom
Role Of Resonance-Enhanced Multiphoton Excitation In High-Harmonic Generation Of N-2: A Time-Dependent Density-Functional-Theory Study, Xi Chu, Gerrit C. Groenenboom
Chemistry and Biochemistry Faculty Publications
A minimum at similar to 39 eV is observed in the high-harmonic-generation spectra of N-2 for several laser intensities and frequencies. This minimum appears to be invariant for different molecular orientations. We reproduce this minimum for a set of laser parameters and orientations in time-dependent density-functional-theory calculations, which also render orientation-dependent maxima at 23-26 eV. Photon energies of these maxima overlap with ionization potentials of excited states observed in photoelectron spectra. Time profile analysis shows that these maxima are caused by resonance-enhanced multiphoton excitation. We propose a four-step mechanism, in which an additional excitation step is added to the well-accepted …
Coupling Field And Laboratory Measurements To Estimate The Emission Factors Of Identified And Unidentified Trace Gases For Prescribed Fires, Robert J. Yokelson, I. R. Burling, J. Gilman, C. Warneke, C. Stockwell, J. De Gouw, S. K. Akagi, S. P. Urbanski, P. Veres, J. M. Roberts, W. C. Kuster, J. Reardon, David W. T. Griffith, T. J. Johnson, S. Hosseini, J. W. Miller, D. R. Cocker Iii, H. Jung, D. R. Weise
Coupling Field And Laboratory Measurements To Estimate The Emission Factors Of Identified And Unidentified Trace Gases For Prescribed Fires, Robert J. Yokelson, I. R. Burling, J. Gilman, C. Warneke, C. Stockwell, J. De Gouw, S. K. Akagi, S. P. Urbanski, P. Veres, J. M. Roberts, W. C. Kuster, J. Reardon, David W. T. Griffith, T. J. Johnson, S. Hosseini, J. W. Miller, D. R. Cocker Iii, H. Jung, D. R. Weise
Chemistry and Biochemistry Faculty Publications
An extensive program of experiments focused on biomass burning emissions began with a laboratory phase in which vegetative fuels commonly consumed in prescribed fires were collected in the southeastern and southwestern US and burned in a series of 71 fires at the US Forest Service Fire Sciences Laboratory in Missoula, Montana. The particulate matter (PM2.5) emissions were measured by gravimetric filter sampling with subsequent analysis for elemental carbon (EC), organic carbon (OC), and 38 elements. The trace gas emissions were measured by an open-path Fourier transform infrared (OP-FTIR) spectrometer, proton-transfer-reaction mass spectrometry (PTRMS), proton-transfer ion-trap mass spectrometry (PIT-MS), negative-ion proton-transfer …
Measurements Of Reactive Trace Gases And Variable O-3 Formation Rates In Some South Carolina Biomass Burning Plumes, S. K. Akagi, Robert J. Yokelson, I. R. Burling, S. Meinardi, Isobel J. Simpson, Donald R. Blake, G. R. Mcmeeking, A. Sullivan, T. Lee, S. Kreidenweis, S. P. Urbanski, J. Reardon, David W. T. Griffith, T. J. Johnson, D. R. Weise
Measurements Of Reactive Trace Gases And Variable O-3 Formation Rates In Some South Carolina Biomass Burning Plumes, S. K. Akagi, Robert J. Yokelson, I. R. Burling, S. Meinardi, Isobel J. Simpson, Donald R. Blake, G. R. Mcmeeking, A. Sullivan, T. Lee, S. Kreidenweis, S. P. Urbanski, J. Reardon, David W. T. Griffith, T. J. Johnson, D. R. Weise
Chemistry and Biochemistry Faculty Publications
In October-November 2011 we measured trace gas emission factors from seven prescribed fires in South Carolina (SC), US, using two Fourier transform infrared spectrometer (FTIR) systems and whole air sampling (WAS) into canisters followed by gas-chromatographic analysis. A total of 97 trace gas species were quantified from both airborne and ground-based sampling platforms, making this one of the most detailed field studies of fire emissions to date. The measurements include the first emission factors for a suite of monoterpenes produced by heating vegetative fuels during field fires. The first quantitative FTIR observations of limonene in smoke are reported along with …