Air quality modeling thesis builder
The numerical results as well as the quality of the results are dependent on the resolution of the discretization of the model but also on the resolution and quality of the input data. In air pollution models the equations describe atmospheric transport . Impact of Climate Change on U.S. Air Quality Using Multi-scale Modeling with the MM5/SMOKE/CMAQ System Grant Number R RFA: Assessing the Consequences of Global Change for Air Quality: Sensitivity of U.S. Air Quality to Climate Change and Future Global Impacts (). Air Quality Modeling. The Group serves as the focal point on modeling techniques for other EPA headquarters staff, Regional Offices, and State and local agencies. It coordinates with the Office of Research and Development on the development of new models and techniques, as well as wider issues of atmospheric research. Natasha Stavros completed a doctoral degree at the UW in Her work included developing a Fire Scenario Builder jointly with the USFS PNW Research to simulate fire events for air-quality and other coarse-scale models. The Fire Scenario Builder, which is being implemented by the AIRFire Team, and partners form other universities. Since , EPA has been creating a new generation of software - Models-3 - that is widely regarded as the next-generation air quality modeling system. The system has a modular framework that allows users to integrate a broad variety of air quality models. In the future, users will also be able to plug in economic decision support tools.
- Societies, partners and affiliations
- Air quality modeling thesis proposal
- Statistical modelling of air quality in Aberdeen
- Publications Details for:
What opportunities for training and professional development has the project provided? This project supported the growth, development, and research of graduate students and undergraduates at the School of Environmental and Forest Sciences as their research pertains to fire, climate, and smoke research. Two doctoral students were partially funded during the life of this project. One master student was partially funded to supported the tasks of this project.
Four undergraduate students worked part time through the life of this project. Natasha Stavros completed a doctoral degree at the UW in In her dissertation, Dr. How have the results been disseminated to communities of interest?
Candace Krull, an atmospheric scientist, collaborated with the AIRFire Team and incident Air Resource Advisors and local regulators to deploy smoke particulate monitors during wildfires. She participated early this year on a three-day workshop, sponsored jointly by the Joint Fire Science Program and the U. Forest Service Fire and Aviation Management, to help incident support specialists to better understand issues around smoke and air quality resulting from fires through explorations of experiences at recent fire during the fire season.
What do you plan to do during the next reporting period to accomplish the goals? Nothing Reported Impacts What was accomplished under these goals? The objectives and deliverables contributed to improve the understanding of the role of weather and climate in fire and other ecological disturbances.
We developed decision support tools for ecosystem management, fire operations, planning, and smoke management based on meteorology, air quality engineering, and climate dynamics which inform land managers to improve decision making.
The tasks that were accomplished for this project includes those established in the initial agreement and further modifications. The Fire Scenario Builder was completed and it was used by a doctoral student on her dissertation.
Societies, partners and affiliations
The doctoral dissertation topic studied the prediction of future large fires interactions based on high-resolution fuels, weather, and terrain data. This component of the project compiled a database of weather, fuels, topography, suppression strategies, land management, multiple ownerships, and other relevant information for large fires that have occurred in the last three decades in the United States.
Gurgel; J. Andrade; T.
Air quality modeling thesis proposal
Neto; F. February 7, Sam Nunn Atlanta Federal Center. SW, Atlanta, GA Multi-scalar influence of weather and climate on very large fires in the Eastern United States. Determining CO?
S; Ottmar, R. The combustion of sound and rotten coarse woody debris: a review. International Journal of Wildland Fire M; Alvarado, E. Model comparisons for estimating carbon emissions from North American wildland fire. Journal of Geophysical Research Bioscience.
Shankar, R. Keane, E. Stavros, W. Heilman, D. Fox, and A.
Statistical modelling of air quality in Aberdeen
Riebau , Smoke consequences of new wildfire regimes driven by climate change, Earth's Future, 2, doi Abatzoglou, N. Larkin, D. McKenzie, and A.
Climate and very large wildland fires in the contiguous Western USA. International Journal of Wildland Fire. McKenzie, and N. The climate-wildfire-air quality system: interactions and feedbacks across spatial and temporal scales. DOI: Larkin, and D. Regional projections of the likelihood of very large wildland fires under a changing climate in the contiguous Western United States. Climatic Change Very large wildfires in the western contiguous United States: probabilistic models for historical and future conditions.
Publications Details for:
University of Washington. Seattle, Washington. Predictive models for the occurrence and size of extreme fire events. Biomass burning fuel consumption rates: a field measurement database, Biogeosciences Discuss. Forest Ecology and Management in prep.
Sponsoring Institution. Project Director Alvarado-Celestino, E. Performing Department Forest Ecology. Non Technical Summary The purpose of this project is to advance climate, fire, and smoke science in support of building a better understanding of how fire is affected by and affects the atmosphere, including weather and climate, and how this knowledge can be used to develop scenarios and tools to better inform land managers.
This project will support the United States Forest Service Atmosphere and Fire Interactions Research Team AIRFire research to improve understanding of the role of weather and climate in fire and other ecological disturbances and to develop decision support tools for ecosystem management, fire operations, planning, and smoke management based on meteorology, air quality engineering, and climate dynamics.
The Forest Service FS and the University of Washington UW will mutually benefit from combining expertise in fire, climate science, and air quality and applying that expertise to the study of how current and historical climate patterns combine with fire to create the conditions for current vegetation types, how climate change may alter these conditions and lead to different vegetation and fire patterns, and how changes in fire patterns in the future are likely to affect future air quality.
The FS benefits from enhanced access to this expertise and experience, as well as from direct and indirect access to the broader academic resources of the UW, including libraries and graduate students. The project benefits the UW by producing research information in support of sound forest, fire, and air quality management practices.
The project will also help support the teaching and mentoring mission of the UW. Animal Health Component. Research Effort Categories Basic.
OUTPUTS: Develop a manuscript for submission to a peer-reviewed journal on summer storms, precipitation patterns, and their influence on regional vegetation patterns. Complete a Master of Science thesis on interactions between climate, fire, and smoke.
Prepare and submit semi-annual progress reports to the United States Forest Service. Progress reports will be due on January 31 and July 31 of each year of this project, beginning January 31, , and ending with submission of the final report.
Field research: analyze how patterns of summer storms and their effects such as precipitation and lightning affect regional vegetation patterns including actual and potential vegetation. Foster the growth, development, and research of graduate students and undergraduates at the University of Washington School of Forest Resources as their research pertains to fire, climate, and smoke research.
Develop decision support tools for ecosystem management, fire operations, planning, and smoke management.