Grantee Research Project Results
Selected Publications Details for Grant Number R835217
Dynamic Management of Prescribed Burning for Better Air Quality
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| Reference Type | Reference Title | Journal | Author | Citation | Progress Report Year | Document Sources |
|---|---|---|---|---|---|---|
| Book Chapter | Source-impact forecasting for dynamic air quality management: application to prescribed burn management. | None | Odman MT, Pophale AA, Sakhpara RD, Hu Y, Russell AG, Chang ME | Odman MT, Pophale AA, Sakhpara RD, Hu Y, Russell AG, Chang ME. Source-impact forecasting for dynamic air quality management: application to prescribed burn management. In: Steyn DG, Chaumerliac N, eds. Air Pollution Modeling and Its Application XXIV. Switzerland: Springer International Publishing, 2016, Chapter 93, pp. 575-579. |
R835217 (2014) R835217 (2015) R835217 (Final) |
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| Book Chapter | Atmospheric plume modeling with a three-dimensional refinement adaptive grid method. | None | Odman MT, Hu Y, Garcia-Menendz F | Odman MT, Hu Y, Garcia-Menendz F. Atmospheric plume modeling with a three-dimensional refinement adaptive grid method. In: Steyn DG, Chaumerliac N, eds. Air Pollution Modeling and Its Application XXIV. Switzerland: Springer International Publishing, 2016, Chapter 67, pp. 409-413. |
R835217 (Final) |
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| Journal Article | Fire emission uncertainties and their effect on smoke dispersion predictions: a case study at Eglin Air Force Base, Florida, USA. | INTERNATIONAL JOURNAL OF WILDLAND FIRE | Davis AY, Ottmar R, Liu YQ, Goodrick S, Achtemeier G, Gullett B, Aurell J, Stevens W, Greenwald R, Hu YT, Russell A, Hiers JK, Odman MT | Davis AY, Ottmar R, Liu Y, Goodrick S, Achtemeier G, Gullett B, Aurell J, Stevens W, Greenwald R, Hu Y, Russell A, Hiers JK, Odman MT. Fire emission uncertainties and their effect on smoke dispersion predictions: a case study at Eglin Air Force Base, Florida, USA. International Journal of Wildland Fire 2015;24(2):276-285. |
R835217 (2012) R835217 (2013) R835217 (2014) R835217 (Final) |
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| Journal Article | Simulating smoke transport from wildland fires with a regional-scale air quality model: sensitivity to uncertain wind fields. | JOURNAL OF GEOPHYSICAL RESEARCH:ATMOSPHERES | Garcia-Menendez F, Hu Y, Odman MT | Garcia-Menendez F, Hu Y, Odman MT. Simulating smoke transport from wildland fires with a regional-scale air quality model: sensitivity to uncertain wind fields. Journal of Geophysical Research–Atmospheres 2013;118(12):6493-6504. |
R835217 (2012) R835217 (Final) |
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| Journal Article | Simulating smoke transport from wildland fires with a regional‐scale air quality model: sensitivity to spatiotemporal allocation of fire emissions. | SCIENCE OF THE TOTAL ENVIRONMENT | Garcia‐Menendez F, Hu Y, Odman MT | Garcia‐Menendez F, Hu Y, Odman MT. Simulating smoke transport from wildland fires with a regional‐scale air quality model: sensitivity to spatiotemporal allocation of fire emissions. Science of The Total Environment 2014;493:544‐553. |
R835217 (2013) R835217 (Final) |
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| Journal Article | Operational forecasting of source impacts for dynamic air quality management. | ATMOSPHERIC ENVIRONMENT | Hu Y, Odman MT, Chang ME, Russell AG | Hu Y, Odman MT, Chang ME, Russell AG. Operational forecasting of source impacts for dynamic air quality management. Atmospheric Environment 2015;116:320-322. |
R833866 (Final) R834799 (2015) R834799 (2016) R834799 (Final) R835217 (2014) R835217 (Final) |
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| Journal Article | Burned area comparisons between prescribed burning permits in southeastern USA and two satellite‐derived products. | JOURNAL OF GEOPHYSICAL RESEARCH--ATMOSPHERES | Huang R, Zhang X, Chan D, Kondragunta S, Russell AG, Odman MT | Huang R, Zhang X, Chan D, Kondragunta S, Russell AG, Odman MT. Burned area comparisons between prescribed burning permits in southeastern USA and two satellite‐derived products. Journal of Geophysical Research--Atmospheres 2018;123(9):4746-4757. |
R835217 (Final) |
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| Journal Article | Improving the accuracy of daily PM2.5 distributions derived from the fusion of ground-level measurements with aerosol optical depth observations, a case study in North China. | ENVIRONMENTAL SCIENCE & TECHNOLOGY | Lv B, Hu Y, Chang HH, Russell AG, Bai Y | Lv B, Hu Y, Chang HH, Russell AG, Bai Y. Improving the accuracy of daily PM2.5 distributions derived from the fusion of ground-level measurements with aerosol optical depth observations, a case study in North China. Environmental Science & Technology 2016;50(9):4752-4759. |
R833866 (Final) R834799 (Final) R835217 (Final) |
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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.