Diagnostics for Determining Influential Species in the Chemical Mass Balance Receptor Model

REFERENCES

• U.S. Environmental Protection Agency. Receptor Model Technical Series, Volume III Revised): CMB User's Manual (Version 7.0); Research Triangle Park, NC, 1990.
   Google Scholar
• Watson, J.G.; Robinson, N.F.; Chow, J.C.; Henry, R.C.; Kim, B.M.; Pace, T.G.; Meyer, E.L.; Nguyen, Q. Environ. Software 1990, 5, 38–49.
   Google Scholar
• Miller, M.S.; Friedlander, S.K.; Hidy, G.M. J. Colloid Interface Sci. 1972, 39, 165–176.
   Google Scholar
• Friedlander, S.K. Environ. Sci. Tech. 1973, 7, 235–240.
   Google Scholar
• Watson, J.G., Jr. “Chemical elemental balance receptor model methodology for assessing the sources of fine and total suspended particulate matter in Portland, Oregon,” Ph.D. dissertation, Oregon Graduate Center, Beaverton, Oregon, 1979.
   Google Scholar
• U.S. Environmental Protection Agency. Receptor Model Technical Series, Volume I: Overview of Receptor Model Application to Particulate Source Apportionment; EPA-450/4-81-016a, PB82-139429; Research Triangle Park, NC, 1981.
   Google Scholar
• U.S. Environmental Protection Agency. Receptor Model Technical Series, Volume II: Chemical Mass Balance; EPA-450/81-016b, PB82-187345; Research Triangle Park, NC, 1982.
   Google Scholar
• U.S. Environmental Protection Agency. Receptor Model Technical Series, Volume IV: Technical Considerations in Source Apportionment by Particle Identification; EPA 450/4-83-018, PB84-103340; Research Triangle Park, NC, 1983.
   Google Scholar
• U.S. Environmental Protection Agency. Receptor Model Technical Series, Volume V: Source Apportionment Techniques and Considerations in Combining Their Use; EPA 450/4-84-020, PB85-111524; Research Triangle Park, NC, 1984.
   Google Scholar
• U.S. Environmental Protection Agency. Receptor Model Technical Series, Volume VI: A Guide to the Use of Factor Analysis and Multiple Regression (FA/MR) Techniques in Source Apportionment; EPA 450/4-85-007, PB86-107638; Research Triangle Park, NC, 1985.
   Google Scholar
• Henry, R.C.; Lewis, C.W.; Hopke, P.K.; Williamson, H.J. Atmos. Environ. 1984, 18, 1507–1515.
   Google Scholar
• Cooper, J. A.; Watson J. G. J. AirPollut. Control Assoc. 1980, 30, 11161125.
   Google Scholar
• Gordon, G. E. Environ. Sci. Technol. 1980, 14, 792–800.
   Google Scholar
• Gordon, G. E. Environ. Sci. Technol. 1988, 22, 1132–1142.
   Google Scholar
• Hopke, P.K. Receptor Modeling in Environmental Chemistry; John Wiley & Sons: New York, 1985.
   Google Scholar
• Axetell, K.; Watson, J.G.; Pace, T.G. Receptor Model Technical Series Volume III (Revised): CMB User's Manual (Version 6.0); EPA-450/4-83-014R; Environmental Protection Agency: Research Triangle Park, NC, 1987.
   Google Scholar
• Pace, T.G.; Watson, J.G. Protocol for Applying and Validating the CMB Model; EPA-450/4-87-010; Research Triangle Park, NC, 1987.
   Google Scholar
• Gray, H.A.; Landry, B.; Liu, C.S.; Henry, R.C.; Cooper, J.A.; Sherman, J. R. “Receptor modeling for PM^ source apportionment in the South Coast Air Basin,” Presented at the Air Pollution Control Association Specialty Conference on Receptor Models, San Francisco, February, 1988.
   Google Scholar
• Cooper, J.; Sherman, J.; Miller, E.; Redline, D.; Valdonovinos, L.; Pollard, W. “CMB source apportionment of PM10 downwind of an oil-fired power plant in Chula Vista, California,” In Transactions, PMW: Implementation of Standards; Mathai, C.V.; Stonefield, D.H., Eds.; Air & Waste Management Association: Pittsburgh, PA, 1988; p 495.
   Google Scholar
• Hopke, P.K.; Wlaschin, W.; Landsberger, S.; Sweet, C.; Vermette, S.J. The Source Apportionment of PM10 in South Chicago. In Transactions, PMW: Implementation of Standards; Mathai, C.V.; Stonefield, D.H., Eds.; Air & Waste Management Association: Pittsburgh, PA, 1988; p 484.
   Google Scholar
• Chow, J.C.; Watson, J.G.; Frazier, C.A.; Egami, R.T.; Goodrich, A.; Ralph, C. Spatial and Temporal Source Contributions to PM10 and PM2.5 in Reno, NV. In Transactions, PM10: Implementation of Standards; Mathai, C.V.; Stonefield, D.H., Eds.; Air & Waste Management Association: Pittsburgh, PA, 1988; p 438.
   Google Scholar
• Watson, J.G.; Chow, J.G.; Mathai, C.V. J. Air Pollut. Control Assoc. 1989, 39, 419–430.
   Google Scholar
• Hough, M.; Stevens, G.; Aalbers, S. Progress to Achieve Residential Wood Combustion PM10 Emission Reductions in Medford, Oregon, as Determined by Compliance Surveys and Ambient Monitoring. In Transactions, PMW Standards and Nontraditional Particulate Source Controls; Chow, J.C.; Ono, D.M., Eds.; Air & Waste Management Association: Pittsburgh, PA, 1992; p 146.
   Google Scholar
• Kim, B.M.; Zeldin, M.; Liu, C. Source Apportionment Study for State Implementation Plan Development in the Coachella Valley. In Transactions, PM10 Standards and Nontraditional Particulate Source Controls; Chow, J.C.; Ono, D.M., Eds.; Air & Waste Management Association: Pittsburgh, PA, 1992; p 979.
   Google Scholar
• Houck, J.E.; Rau, J.A.; Body, S.; Chow, J.C. Source Apportionment— Pocatello, Idaho PM10 Nonattainment Area. In Transactions, PM10 Standards and Nontraditional Particulate Source Controls; Chow, J.C.; Ono, D.M., Eds.; Air & Waste Management Association; Pittsburgh, PA, 1992; p 219.
   Google Scholar
• Chow, J.C.; Watson, J.G.; Lowenthal, D.H.; Frazier, C.A.; Hinsvark, B.A.; Pritchett, L.C.; Neuroth, G.R. Wintertime PM10 and PM2.5 Chemical Compositions and Source Contributions in Tucson, Arizona. In Transactions, PM10 Standards and Nontraditional Particulate Source Controls; Chow, J.C.; Ono, D.M., Eds.; Air & Waste Management Association: Pittsburgh, PA, 1992; p 686.
   Google Scholar
• Cummins, P.; Lloyd, K.H.; Arnold, S.; Reeser, W.K. Development of the Denver PM10 State Implementation Plan. In Transactions, PM10 Standards and Nontraditional Particulate Source Controls; Chow, J.C.; Ono, D.M., Eds.; Air & Waste Management Association: Pittsburgh, PA, 1992; p 1003.
   Google Scholar
• Watson, J.G.; Cooper, J.A; Huntzicker, J.J. Atmos. Environ. 1984, 18, 1347–1355.
   Google Scholar
• Belsley, D.A.; Kuh, E.; Welsch, R.E. Regression Diagnostics: Identifying Influential Data and Sources of Collinearity John Wiley & Sons: New York, 1980.
   Google Scholar
• DeCesar, R.T.; Edgerton, S.A.; Khalil, M.A.K.; Rasmussen, R.A. Chemo-sphere, 1985, 14, 1495.
   Google Scholar
• DeCesar, R.T.; Edgerton, S.A.; Khalil, M.A.K.; Rasmussen, R.A. A Tool for Designing Receptor Model Studies to Apportion Source Impacts with Specified Precisions. In Receptor Methods: Real World Issues and Applications; Air Pollution Control Association: Pittsburgh, PA, 1986.
   Google Scholar
• Henry, R.C. “The effects of errors and bias on chemical mass balance receptor models as shown by the pseudoinverse matrix,” Presented at the 78th Annual Meeting of the Air Pollution Control Association, Detroit, MI, 1985.
   Google Scholar
• Silvey, S.D. J. Royal Statist. Soc. Series B, 1969, 31, 539
   Google Scholar
• Henry, R.C.; Kim, B.M. “Evaluation of receptor model performance,” Report to U.S. Environmental Protection Agency, Technology Development Section, Air Management Technology Branch, Monitoring and Data Analysis Division, Office of Air Quality Planning and Standards, Research Triangle Park, NC, 1986.
   Google Scholar
• Henry, R.C.; Kim, B.M. “Chemical mass balance receptor model diagnostics,” Report to U.S. Environmental Protection Agency, Technology Development Section, Air Management Technology Branch, Monitoring and Data Analysis Division, Office of Air Quality Planning and Standards, Research Triangle Park, NC, 1988.
   Google Scholar
• Javitz, H.S.; Watson, J.G.; Robinson, N. Atmos. Environ. 1988, 22, 23092322.
   Google Scholar