Grantee Research Project Results
Research Consortium on Ozone and Fine Particle Formation in California and in the Northeastern United States
EPA Grant Number: R826371Center: Duke University Center for Environmental Implications of NanoTechnology
Center Director: Wiesner, Mark R.
Title: Research Consortium on Ozone and Fine Particle Formation in California and in the Northeastern United States
Investigators: Seinfeld, John , Prather, Kimberly A. , Pankow, James F. , Davidson, Cliff I. , Kleeman, Michael J. , Pandis, Spyros N. , Bozzelli, Joseph W. , Russell, Armistead G. , Dabdub, Donald , Cass, Glen , Arey, Janet , Bhave, Prakash , Atkinson, Roger
Current Investigators: Seinfeld, John , Davidson, Cliff I. , Pankow, James F. , Pandis, Spyros N. , Atkinson, Roger , Arey, Janet , Russell, Armistead G. , Prather, Kimberly A. , Dabdub, Donald , Bozzelli, Joseph W. , Cass, Glen , Bhave, Prakash , Kleeman, Michael J.
Institution: California Institute of Technology , New Jersey Institute of Technology , Carnegie Mellon University , University of California - Irvine , University of California - Riverside , Georgia Institute of Technology , Oregon Graduate Institute of Science & Technology
Current Institution: California Institute of Technology , Georgia Institute of Technology , New Jersey Institute of Technology , Oregon Graduate Institute of Science & Technology , University of California - Irvine , University of California - Riverside
EPA Project Officer: Hahn, Intaek
Project Period: April 15, 1998 through April 14, 2003
Project Amount: $2,999,210
RFA: Special Opportunity in Tropospheric Ozone (1997) RFA Text | Recipients Lists
Research Category: Air Quality and Air Toxics , Air
Objective:
The objective of this research is to advance the understanding of emissions/air quality relationships for ozone and fine particles in the two most populous areas of the United States: California and the Northeastern states. First the description of the physics and chemistry that is incorporated into air quality models that simultaneously account for ozone and fine particle formation and transport will be improved, and methods will be developed to greatly increase the computational speed of such models. The models developed then will be applied both in Southern California and in the Northeastern United States, formal evaluations of model performance will be conducted, and the models will be used to study the effects of emissions controls on both ozone and fine particle air quality.
Approach:
The CIT airshed model and the nested grid version of that model (the URM model) previously have been employed to study emissions/air quality relationships leading to ozone formation in California and the Northeastern United States. These models will be used as platforms for testing new approaches to the creation of combined models that simultaneously account for both ozone and fine particle formation and transport. First the physics and chemistry that is available for incorporation into air quality models for ozone and fine particles will be improved. New aerosol thermodynamics models and models for aerosol/cloud interactions will be developed, and alternative approaches for representing the combined aerosol size and composition distribution within air quality models will be tested (Pandis and Russell), including methods for accurately representing particle-to-particle differences in chemical composition (Cass and Prather). An integrated study of how to best represent secondary organic aerosol formation within air quality models will be undertaken (Arey, Atkinson, Bozzelli, Flagan, Pankow and Seinfeld). The computational speed of the models will be increased through design of ozone and fine particle models that run on parallel supercomputers (Dabdub and Seinfeld). The completed models for ozone and fine particles will be evaluated through application in Southern California and throughout the Northeastern United States. Model evaluation in Southern California will be conducted by comparison to the detailed ozone, organic gases, and size-distributed particle data from the Southern California Air Quality Study (Dabdub and Seinfeld), and by comparison to a new 1996 set of field experimental data that details particle size and composition at the single particle level (Cass and Prather). Methods developed in California for representing the emissions of primary particles, organic gases and ammonia will be transferred to the eastern U.S. An improved emissions inventory for ammonia in the east will be prepared (Davidson and Cass). The multiscale version of the combined ozone and fine particle model will be evaluated against the best set of field observations that can be assembled in the east, including new fine particle data from a field monitoring network operated by Prof. Cass' group during 1995 in an area stretching from the Great Lakes to the Atlantic Ocean near Boston. The completed models will be used to evaluate the effects of emissions controls on ozone and fine particle air quality in both California and in the Northeast.
Expected Results:
This research will produce improved air quality models for both ozone and fine particle formation and transport, along with an evaluation of model performance both in California and in the Northeastern States, and an expanded understanding of the effect of emissions on air quality in those two regions. New algorithms for aerosol thermodynamics, secondary organic aerosol formation, aerosol/cloud interactions, representation of the particle size and composition distribution, and parallel computation will be developed that are needed by and will be made available to EPA's Models 3 initiative.
Journal Articles: 44 Displayed | Download in RIS Format
Other center views: | All 47 publications | 44 publications in selected types | All 44 journal articles |
---|
Type | Citation | ||
---|---|---|---|
|
Anderson N, Strader R, Davidson C. Airborne reduced nitrogen: ammonia emissions from agriculture and other sources. Environment International 2003;29(2-3):277-286. |
R826371 (Final) R826371C006 (Final) |
Exit Exit Exit |
|
Ansari AS, Pandis SN. An analysis of four models predicting the partitioning of semivolatile inorganic aerosol components. Aerosol Science and Technology 1999;31(2-3):129-153. |
R826371 (Final) R826371C005 (Final) R824793 (Final) |
Exit Exit |
|
Ansari AS, Pandis SN. Water absorption by secondary organic aerosol and its effect on inorganic aerosol behavior. Environmental Science & Technology 2000;34(1):71-77. |
R826371 (Final) R826371C005 (Final) |
Exit Exit Exit |
|
Ansari AS, Pandis SN. The effect of metastable equilibrium states on the partitioning of nitrate between the gas and aerosol phases. Atmospheric Environment 2000;34(1):157-168. |
R826371C005 (Final) R824793 (Final) |
Exit Exit Exit |
|
Baker J, Aschmann SM, Arey J, Atkinson R. Reactions of stabilized criegee intermediates from the gas-phase reactions of O3 with selected alkenes. International Journal of Chemical Kinetics 2002;34(2):73-85. |
R826371 (Final) R826371C007 (Final) |
Exit |
|
Bethel HL, Atkinson R, Arey J. Products of the gas-phase reactions of OH radicals with p-xylene and 1,2,3- and 1,2,4-trimethylbenzene: effect of NO2 concentration. Journal of Physical Chemistry A 2000;104(39):8922-8929. |
R826371C007 (Final) R825252 (1998) R825252 (1999) R825252 (2000) R825252 (Final) |
Exit |
|
Bethel HL, Arey J, Atkinson R. Products of the OH radical-initiated reaction of 3-hexene-2,5-dione. Environmental Science & Technology 2001;35(22):4477-4480. |
R826371 (Final) R826371C007 (Final) |
Exit Exit Exit |
|
Bethel HL, Atkinson R, Arey J. Kinetics and products of the reactions of selected diols with the OH radical. International Journal of Chemical Kinetics 2001;33(5):310-316. |
R826371C007 (Final) R825252 (1998) R825252 (1999) R825252 (2000) R825252 (Final) |
Exit |
|
Bhave PV, Fergenson DP, Prather KA, Cass GR. Source apportionment of fine particulate matter by clustering single-particle data:tests of receptor model accuracy. Environmental Science & Technology 2001;35(10):2060-2072. |
R826371 (Final) R826371C001 (Final) |
Exit Exit Exit |
|
Bhave PV, Kleeman MJ, Allen JO, Hughes LS, Prather KA, Cass GR. Evaluation of an air quality model for the size and composition of source-oriented particle classes. Environmental Science & Technology 2002;36(10):2154-2163. |
R826371 (Final) R826371C001 (Final) R826371C004 (Final) |
Exit Exit Exit |
|
Bhave PV, Allen JO, Morrical BD, Fergenson DP, Cass GR, Prather KA. A field-based approach for determining ATOFMS instrument sensitivities to ammonium and nitrate. Environmental Science & Technology 2002;36(22):4868-4879. |
R826371 (Final) R826371C001 (Final) |
Exit Exit |
|
Bozzelli JW, Jung D. Theoretical investigation on stability of the C•H2OCl radical. Journal of Physical Chemistry A 2001;105(16):3941-3946. |
R826371 (Final) R826371C009 (Final) |
Exit Exit Exit |
|
Capaldo KP, Pilinis C, Pandis SN. A computationally efficient hybrid approach for dynamic gas/aerosol transfer in air quality models. Atmospheric Environment 2000;34(21):3617-3627. |
R826371 (Final) R826371C005 (Final) |
Exit Exit Exit |
|
Clegg SL, Seinfeld JH, Brimblecombe P. Thermodynamic modelling of aqueous aerosols containing electrolytes and dissolved organic compounds. Journal of Aerosol Science 2001;32(6):713-738. |
R826371 (Final) R826371C003 (Final) |
Exit Exit Exit |
|
Fahey KM, Pandis SN. Optimizing model performance:variable size resolution in cloud chemistry modeling. Atmospheric Environment 2001;35(26):4471-4478. |
R826371 (Final) R826371C005 (Final) |
Exit Exit Exit |
|
Fahey KM, Pandis SN. Size-resolved aqueous-phase atmospheric chemistry in a three-dimensional chemical transport model. Journal of Geophysical Research: Atmospheres 2003;108(D22):4690, doi:10.1029/2003JD003564. |
R826371C005 (Final) |
Exit |
|
Gaydos TM, Koo B, Pandis SN, Chock DP. Development and application of an efficient moving sectional approach for the solution of the atmospheric aerosol condensation/evaporation equations. Atmospheric Environment 2003;37(23):3303-3316. |
R826371 (Final) R826371C005 (Final) |
Exit Exit Exit |
|
Gaydos TM, Stanier CO, Pandis SN, Pandis SN. Modeling of in situ ultrafine atmospheric particle formation in the eastern United States. Journal of Geophysical Research: Atmospheres 2005;110(D7):D07S12 (12 pp.). |
R826371 (Final) |
Exit Exit |
|
Goebes MD, Strader R, Davidson C. An ammonia emission inventory for fertilizer application in the United States. Atmospheric Environment 2003;37(18):2539-2550. |
R826371 (Final) R826371C006 (Final) |
Exit Exit Exit |
|
Griffin RJ, Dabdub D, Seinfeld JH. Secondary organic aerosol 1. Atmospheric chemical mechanism for production of molecular constituents. Journal of Geophysical Research 2002;107(D17):4332 (26 pp.). |
R826371 (Final) R826371C003 (Final) |
Exit Exit |
|
Griffin RJ, Dabdub D, Kleeman MJ, Fraser MP, Cass GR, Seinfeld JH. Secondary organic aerosol 3. Urban/regional scale model of size-and composition-resolved aerosols. Journal of Geophysical Research: Atmospheres 2002;107(D17):4334 (14 pp.). |
R826371 (Final) R826371C003 (Final) |
Exit Exit |
|
Jung D, Chen C-J, Bozzelli JW. Structures, rotation barrier, and thermodynamic properties ΔHf°298, S°298, and Cp(T) of chloromethyl hypochlorites CH3OCl, CH2ClOCl, CHCl2OCl, and CCl3OCl. Journal of Physical Chemistry A 2000;104(42):9581-9590. |
R826371 (Final) R826371C009 (Final) R824970 (Final) |
Exit Exit Exit |
|
Kleeman MJ, Cass GR. Source contributions to the size and composition distribution of urban particulate air pollution. Atmospheric Environment 1998;32(6):2803-2816. |
R826371 (Final) |
Exit Exit Exit |
|
Kleeman MJ, Hughes LS, Allen JO, Cass GR. Source contributions to the size and composition distribution of atmospheric particles:Southern California in September 1996. Environmental Science & Technology 1999;33(23):4331-4341. |
R826371 (Final) R826371C002 (Final) |
Exit Exit Exit |
|
Kleeman MJ, Cass GR. A 3D Eulerian source-oriented model for an externally mixed aerosol. Environmental Science & Technology 2001;35(24):4834-4848. |
R826371 (Final) R826371C002 (Final) |
Exit Exit Exit |
|
Kleeman MJ, Eldering A, Hall JR, Cass GR. Effect of emissions control programs on visibility in southern California. Environmental Science & Technology 2001;35(23):4668-4674. |
R826371 (Final) R826371C002 (Final) |
Exit Exit Exit |
|
Koo B, Gaydos TM, Pandis SN. Evaluation of the equilibrium, dynamic, and hybrid aerosol modeling approaches. Aerosol Science and Technology 2003;37(1):53-64. |
R826371 (Final) R826371C005 (Final) R831709 (2007) R831709C003 (2004) |
Exit Exit |
|
Koo B, Ansari AS, Pandis SN. Integrated approaches to modeling the organic and inorganic atmospheric aerosol components. Atmospheric Environment 2003;37(34):4757-4768. |
R826371 (Final) R826371C005 (Final) |
Exit Exit Exit |
|
Lee J, Chen C-J, Bozzelli JW. Thermochemical and kinetic analysis of the acetyl radical (CH3C •O) + O2 reaction system. Journal of Physical Chemistry A 2002;106(31):7155-7170. |
R826371 (Final) |
Exit Exit Exit |
|
Lee J, Bozzelli JW. Thermochemical and kinetic analysis of the formyl methyl radical + O2 reaction system. Journal of Physical Chemistry A 107(19):3778-3791. |
R826371 (Final) R826371C009 (Final) |
Exit Exit Exit |
|
Lee J, Bozzelli JW. Reaction of H + ketene to formyl methyl and acetyl radicals and reverse dissociations. International Journal of Chemical Kinetics 2003;35(1):20-44. |
R826371 (Final) R826371C009 (Final) |
Exit |
|
Martin P, Tuazon EC, Aschmann SM, Arey J, Atkinson R. Formation and atmospheric reactions of 4,5-dihydro-2-methylfuran. Journal of Physical Chemistry A 2002;106(47):11492-11501. |
R826371 (Final) R826371C007 (Final) |
Exit Exit Exit |
|
Moya M, Ansari AS, Pandis SN. Partitioning of nitrate and ammonium between the gas and particulate phases during the1997 IMADA-AVER study in Mexico City. Atmospheric Environment 2001;35(10):1791-1804. |
R826371 (Final) R826371C005 (Final) |
Exit Exit Exit |
|
Moya M, Pandis SN, Jacobson MZ. Is the size distribution of urban aerosols determined by thermodynamic equilibrium? An approach to Southern California. Atmospheric Environment 2002;36(14):2349-2365. |
R826371 (Final) R826371C005 (Final) |
Exit Exit Exit |
|
Nguyen K, Dabdub D. Two-level time-marching scheme using splines for solving the advection equation. Atmospheric Environment 2001;35(9):1627-1637. |
R826371 (Final) R826371C004 (Final) |
Exit Exit Exit |
|
Nguyen K, Dabdub D. NOx and VOC control and its effect on the formation of aerosols. Aerosol Science & Technology 2002;36(5):560-572. |
R826371 (Final) R826371C004 (Final) |
Exit Exit |
|
Pankow JF, Seinfeld JH, Asher WE, Erdakos GB. Modeling the formation of secondary organic aerosol. 1. Application of theoretical principles to measurements obtained in the α-pinene/, β-pinene/, sabinene/, Δ3-carene/, and cyclohexene/ozone systems. Environmental Science & Technology 2001;35(6):1164-1172. |
R826371 (Final) R826371C003 (Final) |
Exit Exit Exit |
|
Pun BK, Griffin RJ, Seigneur C, Seinfeld JH. Secondary organic aerosol 2. Thermodynamic model for gas/particle partitioning of molecular constituents. Journal of Geophysical Research-Atmospheres 2002;107(D17):4333 (15 pp.). |
R826371 (Final) R826371C003 (Final) |
Exit Exit |
|
Reisen F, Arey J. Reactions of hydroxyl radicals and ozone with acenaphthene and acenaphthylene. Environmental Science & Technology 2002;36(20):4302-4311. |
R826371 (Final) R826371C007 (Final) |
Exit Exit Exit |
|
Seinfeld JH, Erdakos GB, Asher WE, Pankow JF. Modeling the formation of secondary organic aerosol (SOA). 2. The predicted effects of relative humidity on aerosol formation in the α-pinene-, β-pinene-, Sabinene-, Δ3-carene-, and cyclohexene-ozone systems. Environmental Science & Technology 2001;35(9):1806-1817. |
R826371 (Final) R826371C003 (Final) |
Exit Exit Exit |
|
Song X-H, Hopke PK, Fergenson DP, Prather KA. Classification of single particles analyzed by ATOFMS using an artificial neural network, ART-2A. Analytical Chemistry 1999;71(4):860-865. |
R826371 (Final) R826371C001 (Final) |
Exit Exit Exit |
|
Sun H, Bozzelli JW. Structures, intramolecular rotation barriers, and thermochemical properties of radicals derived from H atom loss in mono-, di-, and trichloromethanol and parent chloromethanols. The Journal of Physical Chemistry A 2001;105(18):4504-4516. |
R826371 (Final) |
Exit Exit Exit |
|
Sun H, Bozzelli JW. Structures, intramolecular rotation barriers, and thermochemical properties:ethanol, α-monoethanols, dichloroethanols, and corresponding radicals derived from H atom loss. Journal of Physical Chemistry A 2001;105(41):9543-9552. |
R826371 (Final) R826371C009 (Final) |
Exit Exit Exit |
|
Zhu L, Bozzelli JW. Structures, rotational barriers, and thermochemical properties of chlorinated aldehydes and the corresponding acetyl (CC•=O) and formyl methyl radicals (C•C=O) and additivity groups. Journal of Physical Chemistry A 2002;106(2):345-355. |
R826371 (Final) R826371C009 (Final) |
Exit Exit Exit |
Supplemental Keywords:
air quality modeling, ambient air, particulate, ozone, environmental chemistry, California, Northeastern United States., RFA, Scientific Discipline, Air, particulate matter, Environmental Chemistry, Analytical Chemistry, tropospheric ozone, Atmospheric Sciences, aerosol formation, atmospheric particulate matter, fine particles, airborne particulate matter, fine particulates, ozone, air sampling, air pollution models, air quality model, chemical composition, atmospheric aerosol particles, aersol particles, California, aerosol thermodynamics, atmospheric chemistry, ambient aerosol particlesProgress and Final Reports:
Subprojects under this Center: (EPA does not fund or establish subprojects; EPA awards and manages the overall grant for this center).
R826371C001 Research Consortium on Ozone and Fine Particle Formation in California and in the Northeastern United States: Cal Tech, UC-Riverside, UC-San Diego, UC-Davis Report
R826371C002 Research Consortium on Ozone and Fine Particle Formation in California and in the Northeastern United States: Cal Tech, Carnegie Mellon, Georgia Institute, NJIT, Oregon Institute, UC-Irvine, UC-Riverside Report
R826371C003 Research Consortium on Ozone and Fine Particle Formation in California and in the Northeastern United States: Cal Tech Report
R826371C004 Research Consortium on Ozone and Fine Particle Formation in California and in the Northeastern United States: California - Irvine Report
R826371C005 Research Consortium on Ozone and Fine Particle Formation in California and in the Northeastern United States: Carnegie Mellon Report
R826371C006 Research Consortium on Ozone and Fine Particle Formation in California and in the Northeastern United States: Carnegie Mellon Report
R826371C007 Research Consortium on Ozone and Fine Particle Formation in California and in the Northeastern United States: UC-Riverside
R826371C008 Research Consortium on Ozone and Fine Particle Formation in California and in the Northeastern United States: Oregon Health and Science Report
R826371C009 Research Consortium on Ozone and Fine Particle Formation in California and in the Northeastern United States: NJIT Report
The perspectives, information and conclusions conveyed in research project abstracts, progress reports, final reports, journal abstracts and journal publications convey the viewpoints of the principal investigator and may not represent the views and policies of ORD and EPA. Conclusions drawn by the principal investigators have not been reviewed by the Agency.