Influence of the public transportation system on the air quality of a major
urban center. A case study: Milan, Italy.
Meinardia S., Nissenson P., Barletta B., Dabdub D., Rowland F.S.
and Blake D.R.
Accepted.
Sensitivity and uncertainty analysis of the mechanism of gas-phase
chlorine production from NaCl aerosols in the MAGIC model.
Nissenson P.M., Thomas J.L., Finlayson-Pitts B. F. and Dabdub D.
Accepted.
Air quality impacts of distributed energy resources implmented in the
Northeasten United States. Carreras-Sospedra M., Dabdub D., Brouwer J.,
Knipping E., Kumar N., Darrow K., Hampson A. and Hedman B.
J. Air & Waste Manage. Assoc., 58,
doi:10.3155/1047-3289.58.7.902 (2008) 902-912.
[PDF]
Modeling the effects of ship emissions on coastal air quality: A case study of
southern California. Vutukuru S. and Dabdub D.
Atmospheric Environment 42,
doi:10.1016/j.atmosenv.2007.12.073 (2008) 3751-3764.
[PDF]
Influence of sea-salt activated chlorine and surface-mediated
renoxification on the weekend effect in the South Coast Air Basin of California.
Accepted.
Enhanced photolysis in aerosols: evidence for important surface effects.
Nissenson P., Knox C. J. H., Finlayson-Pitts B. J., Phillips L. F. and
Dabdub D.
Accepted.
The contribution of gas-phase oxidation of volatile organic compounds to
atmospheric carbon monoxide levels in two areas of the United States.
Griffin R. J., Chen J., Carmody K., Vutukuru S. and Dabdub D.
Accepted.
Air Quality Modeling in the South Coast Air Basin of California: What do
numbers really mean?
Carreras-Sospedra M., Rodriguez M., Brouwer J. and Dabdub D.
Accepted.
Air quality impacts of distributed power generation in the South Coast Air
Basin of California 2: model uncertainty and sensitivity analysis.
Accepted.
Air quality impacts of distributed power generation in the South Coast Air
Basin of California 1: scenario development and modeling analysis.
Accepted.
Simulation and analysis of secondary organic aerosol dynamics in the
South Coast Air Basin of California.
Vutukuru S., Griffin R. J. and Dabdub D.
J. Geophys. Res.111, D10S12, doi:10.1029/2005JD006139 (2006)
[PDF]
Gas-phase molecular halogen formation from sea-salt aerosols: when are
interface reactions important?
Thomas J., Jimenez-Aranda A., Finlayson-Pitts B. J. and Dabdub D.
J. Phys. Chem A, 110, (2006) 1859-1867.
[PDF]
Comment on "Semiempirical model for organic aerosol growth by acid-catalyzed
heterogeneous reactions of carbonyls". Barsanti K. C., Pankow J. F.,
Dabdub D., Griffin R. J. and Seinfeld J. H.
Environ. Sci. Technol. 39, (2005) 8108--8109.
[PDF]
Development and initial evaluation of a dynamic species-resolved model for
gas-phase chemistry and size-resolved gas/particle partitioning associated
with secondary organic aerosol formation. Griffin R. J., Dabdub D. and
Seinfeld J. H.
J. Geophys. Res.110, D05304, doi:10.1029/2004JD005219 (2005)
[PDF]
Calculation of incremental secondary organic aerosol reactivity. Carreras, M.,
Griffin R. J. and Dabdub D.
Environ. Sci. Technol. 38, (2005) 1724-1730.
[PDF]
Formation of molecular bromine from the reaction of ozone with deliquesced
NaBr aerosol: evidence for interface chemistry
Hunt S. W., Roeselová M., Wang W., Wingen L. M., Knipping E. M.,
Tobias D. J., Dabdub D. and Finlayson-Pitts B. J.
J. Phys. Chem A.108, (2004) 11559-11572.
[PDF]
Three-dimensional simulations of inorganic aerosol distributions in
east Asia during Spring 2001.
Tang Y., Carmichael G. R.,
Seinfeld J. H., Dabdub D., Weber R. J., Huebert B., Clarke A. D.,
Guazzotti S. A., Sodeman D. A., Prather K. A., Uno I., Woo J. H.,
Yienger J. J., Streets D. G., Quinn P. K., Johnson J. E., Song C. H.,
Grassian V. H., Sandu A., Talbot R. W. and Dibb J. E.
J. Geophys. Res.109, D19S23, doi:10.1029/2003JD004201 (2004)
[PDF]
Multiscale simulations of tropospheric chemistry in the eastern Pacific and on
the US West Coast during Spring 2002. Tang Y., Carmichael G. R.,
Horowitz L. W., Uno I., Woo J. H., Streets D. G., Dabdub D., Kurata G.,
Sandu A., Allan J., Atlas E., Flocke F., Huey L. G., Jakoubek R. O.,
Millet D. B., Quinn P. K., Roberts J. M., Worsnop D. R., Goldstein A.,
Donnelly S., Schauffler S., Stroud V., Johnson K., Avery M. A., Singh H. B.
and Apel E. C.
J. Geophys. Res.109, D23S11, doi:10.1029/2004JD004513 (2004)
[PDF]
Comment on "Instantaneous secondary organic aerosol yields and their
comparison with overall aerosol yields for aromatic and biogenic
hydrocarbons" by Weimin Jiang. Knipping E. M., Griffin R. J., Bowman F. M.,
Pun B., Seigneur C., Dabdub D. and Seinfeld J. H.
Atmospheric Environment 38, (2004) 2759-2761.
[PDF]
IMAGES-SCAPE2: A modeling study of size and chemically resolved aerosol
thermodynamics in a global chemical transport model.
Rodriguez M. and Dabdub D.
J. Geophys. Res.109, D02203, doi:10.1029/2003JD003639 (2004)
[PDF]
Modeling the oxidative capacity of the atmosphere of the South Coast Air Basin
of California: 1. Ozone formation metrics. Griffin R. J., Revelle M. K.
and Dabdub D.
Environ. Sci. Technol. 38, (2004) 746-752.
[PDF]
Comparison of photochemical mechanisms for air quality modeling.
Jimenez P., Baldasano J.M. and Dabdub D.
Atmospheric Environment 37, (2003) 4179-4194.
[PDF]
Monte Carlo uncertainty and sensitivity analysis of the CACM chemical
mechanism. Rodriguez M. and Dabdub D.
J. Geophys. Res.108,
(D15), 4443, doi:10.1029/2002JD003281 (2003)
[PDF]
Development and analysis of a non-splitting solution for three-dimensional
air quality models. Nguyen K. and Dabdub D.
Atmospheric Environment 37, (2003) 3741-3748.
[PDF]
Impact of chlorine emissions from sea-salt aerosol on coastal urban
ozone.
Knipping E. M. and Dabdub D. Environ. Sci. Technol. 37,
(2003) 275-284.
[PDF][Support Info]
A coupled hydrophobic-hydrophilic model for predicting secondary organic
aerosol formation. Griffin R. J., Nguyen K., Dabdub D. and Seinfeld J. H.
Journal of Atmospheric Chemistry44,(2003) 171-190.
[PDF]
Modeling surface-mediated renoxification of the atmosphere via reaction
of gaseous nitric oxide with deposited nitric acid.
Knipping E. M. and Dabdub D.
Atmospheric Environment 36, (2002) 5741-5748.
[PDF]
Modeling study of Cl2 formation from aqueous NaCl particles: Evidence for
interfacial reactions and importance of Cl2 decomposition in alkaline
solution. Knipping E. M. and Dabdub D.
J. Geophys. Res.107, (D18), 4360,doi:10.1029/2001JD000867 (2002)
[PDF]
Secondary organic aerosol: 3. Urban/regional scale model of size-
and composition-resolved aerosols. Griffin R. J., Dabdub D.,
Kleeman M. J., Fraser M. P., Cass G. R. and Seinfeld J. H.
J. Geophys. Res.107, (D17), 4334,doi:10.1029/2001JD000544 (2002)
[PDF]
Secondary organic aerosol: 1. Atmospheric chemical mechanism for
production of molecular constituents. Griffin R. J., Dabdub D. and
Seinfeld J. H. J. Geophys. Res.107, (2002)
J. Geophys. Res.107, (D17), 4332,doi:10.1029/2001JD000541 (2002)
[PDF]
NOx and VOC control and its effect on the formation of aerosols. Nguyen
K. and Dabdub D. Aerosol Science & Technology. 36, (2002) 560-572.
[PDF]
Semi-Lagrangian flux scheme for the solution of the aerosol
condensation/evaporation equation. Nguyen K. and Dabdub
D. Aerosol Science & Technology 36, (2002) 407-418.
[PDF]
Two-level time-marching scheme using splines for solving the advection
equation. Nguyen K. and Dabdub D. Atmospheric Environment35,
(2001) 1627-1637.
[PDF]
Effect of alveolar volume and sequential filling on the diffusing capacity
of the lungs: II. Experiment. Tsoukias N. M., Dabdub D., Wilson A. F. and
George S. C. Respiration Physiology120, (2000) 251-271.
[PDF]
Experiments and simulations of ion-enhanced interfacial chemistry on aqueous
NaCl aerosols. Knipping E. M., Lakin M. J., Foster K. L., Jungwirth P.,
Tobias D. J., Gerber R. B., Dabdub D. and Finlayson-Pitts B. J. Science288, (2000) 301-306.
[PDF]
Determination of domain for diagnostic wind field estimation in Korea.
Kim J. Y., Ghim Y. S., Kim Y. P. and Dabdub D. Atmospheric Environment34, (2000) 595-601.
[PDF]
Estimate of global atmospheric organic aerosol from oxidation of biogenic
hydrocarbons. Griffin R. J., Cocker D. R., Seinfeld J. H. and Dabdub
D. Geophysical Research Letters26, (1999) 2721-2724.
[PDF]
Analysis of ozone in the San Joaquin Valley of California. Dabdub D., DeHaan
L. L. and Seinfeld J. H. Atmospheric Environment33, (1999)
2501-2514.
[PDF]
Modeling bronchial circulation with application to soluble gas exchange:
description and sensitivity analysis. Bui T. D., Dabdub D. and Geroge S.
C. J. Applied Physiology84, (1998) 2070-2088.
[PDF]
Size-resolved and chemically resolved model of atmospheric aerosol dynamics.
Meng Z., Dabdub D. and Seinfeld, J. H. J. Geophys. Res.103,
(1998) 3419-3436.
[PDF]
Performance and portability of an air quality model. Dabdub D. and Manohar
R. Parallel Computing23, (1997) 2187-2200.
[PDF]
Benchmarking stiff ODE solvers for atmospheric chemistry problems I: implicit
versus explicit. Sandu A., Verwer J. G., van Loon M., Carmichael G. R.,
Potra F. A., Dabdub D. and Seinfeld J. H. Atmospheric Environment31, (1997) 3149-3164.
[PDF]
Chemical coupling between atmospheric ozone and particulate matter. Meng
Z., Dabdub D. and Seinfeld J. H. Science277 No 5322 (1997)
116-119.
[PDF]
Parallel computation in atmospheric chemical modeling. Dabdub D. and Seinfeld
J. H. Parallel Computing22, (1996) 111-130.
[PDF]
Extrapolation techniques used in the solution of stiff ODEs associated
with chemical kinetics of air quality models. Dabdub D. and Seinfeld J.
H. Atmospheric Environment29, (1995) 403-410.
[PDF]
Numerical advective schemes used in air quality models---Sequential and
parallel implementation. Dabdub D. and Seinfeld J. H. Atmospheric
Environment28, (1994) 3369-3385.
[PDF]
Air quality modeling on massively parallel computers. Dabdub D. and Seinfeld
J. H. Atmospheric Environment28, (1994) 1679-1687.
[PDF]
High-molecular-weight polymer segment distribution in small latex-particles.
Dabdub D., Klein A. and Sperling L. H. J. of Polymer Sciences Part B:
Polymer Physics30, No. 7 (1992) 787-789.
[PDF]
Peer Reviewed Book
Chapters
Managing specificity and generality: tailoring general
archetypal PSEs to specific users, Dabdub D., Chandy K. M. and
Hewett T. Enabling technologies for computational science: frameworks,
middleware and environments. (Houstis E. N. and Rice J. R. editors)
Kluwer Academic Publishers.
Emerging air quality modeling techniques for high performancecomputing
and communication environments, Byun D. W., Dabdub D., Fine S., Hanna A.
F., Mathur R., Odman M. T., Russell A., Segall E. J., Seinfeld, J. H.,
Steenkiste P. and Young J. Air pollution modeling and its application.
Proceedings of the 21st NATO/CCMS meeting. New York, Plenum Press.
Reports
Heterogeneous NOx chemistry in polluted urban atmospheres: implications
for the formation of particles and ozone and control strategy
development. Final report to the California Air Resources Board and the
California Environmental Protection Agency. (2004) ARB Contract No. 00-323.
[PDF]
Chlorine emissions from activated sea-salt aerosols and their potential
impact on ozone. Knipping E. M. and Dabdub D. Final Report to the
California Air Resources Board and the California Environmental Protection
Agency. (2002) ARB Contract No. 00-324.
[PDF]
Continued development of a photochemical model and application to the Southern
California Air Quality Study (SCAQS) intensive monitoring periods: Phase
I, Harley R. A., Russell A. G., McRae G. J., McNair L. A., Winner D. A.,
Odman M. T., Dabdub D., Cass G. R. and Seinfeld J. H. Final Report to the
Coordinating Research Council (1992).
Continued development of a photochemical model and application to the Southern
California Air Quality Study (SCAQS) intensive monitoring periods: Phase
II Model Application, McNair L. A., Harley R. A., Russell A. G., Cass G.
R.,Odman M. T., McRae G. J., Seinfeld J. H., Winner D. A., and Dabdub D.
Final Report to the Coordinating Research Council (1992).
