Understanding the Weather Leading to Poor Winter Air Quality Erik Crosman 1, John Horel 1, Chris Foster 1, Lance Avey 2 1 University of Utah Department.

Slides:

Advertisements

Similar presentations

Basics of numerical oceanic and coupled modelling Antonio Navarra Istituto Nazionale di Geofisica e Vulcanologia Italy Simon Mason Scripps Institution.

Advertisements

Introduction Air stagnation is a meteorological condition when the same air mass remains over an area for several days to a week. Light winds during air.

Development of the Regional Arctic Climate System Model (RACM) --- Department of Civil and Environmental Engineering University of Washington Dec, 2009.

Effects of the Great Salt Lake’s Temperature and Size on the Regional Precipitation in the WRF Model Joe Grim Jason Knievel National Center for Atmospheric.

Recent performance statistics for AMPS real-time forecasts Kevin W. Manning – National Center for Atmospheric Research NCAR Earth System Laboratory Mesoscale.

METCRAX: The Meteor Crater Experiment A Major Scientific Experiment Studying Temperature Inversions and Gravity Waves in the Arizona Meteor Crater October.

Hector simulation We found simulation largely depending on: Model initialization scheme Lateral boundary conditions Physical processes represented in the.

Three-State Air Quality Study (3SAQS) Three-State Data Warehouse (3SDW) 2011 WRF Modeling Model Performance Evaluation University of North Carolina (UNC-IE)

Characterizing the Boundary-Layer During the Uintah Basin Ozone Study John Horel Erik Crosman, Matt Lammers, Alex Jacques, Nola Lucke, John Lawson, Maggie.

Chapter 2: Satellite Tools for Air Quality Analysis 10:30 – 11:15.

Understanding the Weather Leading to Poor Winter Air Quality Erik Crosman 1, John Horel 1, Chris Foster 1, Lance Avey 2 1 University of Utah Department.

Summary of Current and Ongoing Cold Pool Modeling Research University of Utah/DAQ CAP John Horel, Erik Crosman, Erik Neemann University of Utah Department.

OAQPS Air Quality Modeling Group Fine-scale Meteorological Simulation of Cold Pools in Salt Lake City Chris Misenis, Kirk Baker, Pat Dolwick October 29,

2013 Uintah Basin Winter Ozone Study 1 uintahbasin/studies/UBOS-2013.htm John Horel and Erik Crosman Mountain Meteorology.

Great Basin Ozone Problem Measurements indicate high ozone concentrations in the Great Basin. Back trajectory analysis and satellite remote sensing will.

Regional Climate Modeling in the Source Region of Yellow River with complex topography using the RegCM3: Model validation Pinhong Hui, Jianping Tang School.

Muntaseer Billah, Satoru Chatani and Kengo Sudo Department of Earth and Environmental Science Graduate School of Environmental Studies Nagoya University,

The National Environmental Agency of Georgia L. Megrelidze, N. Kutaladze, Kh. Kokosadze NWP Local Area Models’ Failure in Simulation of Eastern Invasion.

© Crown copyright Met Office Climate Projections for West Africa Andrew Hartley, Met Office: PARCC national workshop on climate information and species.

Toward Improved Numerical Forecasting of Wintertime Stable Boundary Layers Erik Crosman 1, John Horel 1, Chris Foster 1, Erik Neemann 1, Brian Blaylock.

Prediction of Future North American Air Quality Gabriele Pfister, Stacy Walters, Mary Barth, Jean-Francois Lamarque, John Wong Atmospheric Chemistry Division,

Developing a High Spatial Resolution Aerosol Optical Depth Product Using MODIS Data to Evaluate Aerosol During Large Wildfire Events STI-5701 Jennifer.

National/Regional Air Quality Modeling Assessment Over China and Taiwan Using Models-3/CMAQ Modeling System Joshua S. Fu 1, Carey Jang 2, David Streets.

WRF Winter Modeling Towards Improving Cold Air Pools Jared Bowden Kevin Talgo UNC Chapel Hill Institute for the Environment Feb. 25, 2015.

28 Jan 1815 UTC2135 UTC Clear patches due to canyon drainage/ Exchange from Utah Valley? PCAPS IOP January 2011.

Guo-Yue Niu and Zong-Liang Yang The Department of Geological Sciences The University of Texas at Austin Evaluation of snow simulations from CAM2/CLM2.0.

Gpegpe P Introduction A three-year NSF project is underway to investigate the processes leading to the formation, maintenance and destruction of.

Algorithms and chemical data assimilation activities at Environment Canada Chris McLinden Air Quality Research Division, Environment Canada 2 nd TEMPO.

Uintah Basin Weather Discussion Uintah Basin Applied Tech College Vernal Utah 1 January 2013 ~11:30 am.

EGU General Assembly C. Cassardo 1, M. Galli 1, N. Vela 1 and S. K. Park 2,3 1 Department of General Physics, University of Torino, Italy 2 Department.

Introduction Background Elevated PM 2.5 in Salt Lake Valley Large population, high vehicle emissions Elevated O 3 in Uintah Basin Significant industrial.

Numerical Simulations of Persistent Cold-Air Pools in the Uintah Basin, Utah Erik M. Neemann, University of Utah Erik T. Crosman, University of Utah John.

Dynamical downscaling of historical and projected winter precipitation in the Wasatch Range (for the CI-WATER project) Court Strong, Jim Steenburgh, Trevor.

Imposed versus Dynamically Modeled Sea Ice: A ROMS study of the effects on polynyas and waters masses in the Ross Sea John M. Klinck, Y. Sinan Hüsrevoglu.

Earth-Sun System Division National Aeronautics and Space Administration SPoRT SAC Nov 21-22, 2005 Regional Modeling using MODIS SST composites Prepared.

Erik Crosman 1, John Horel 1, Chris Foster 1, Erik Neemann 1 1 University of Utah Department of Atmospheric Sciences Toward Improved NWP Simulations of.

Problems modeling CAPs Clouds Type (ice or liquid) Extent Duration Winds Too strong in surface layer Over- dispersive, end CAP too soon Proposed possible.

Modern Era Retrospective-analysis for Research and Applications: Introduction to NASA’s Modern Era Retrospective-analysis for Research and Applications:

Assess Summer Ozone Concentrations over the Great Salt Lake in Relation to Those Along the Wasatch Front Seth Arens, Utah Division of Air Quality John.

An air quality information system for cities with complex terrain based on high resolution NWP Viel Ødegaard, r&d department.

Dispersion conditions in complex terrain - a case study of the January 2010 air pollution episode in Norway Viel Ødegaard Norwegian Meteorological.

Project: Improving Air Quality Modeling for the Wasatch Front/Cache Valley Winter Air Pollution Episodes Erik Crosman 1, John Horel 1, Lance Avey 2, Chris.

COLPEX; Cold Air Pooling over Complex Terrain Bradley Jemmett-Smith 1 st year PhD RMets Conference 10 th July 2010.

Climate of Mesoamerica and Caribbean Prepared by Adam Carpenter, based on research by Amy Huff, Battelle.

Urban Heat Island and Pollution

An Improved Global Snow Classification Dataset for Hydrologic Applications (Photo by Kenneth G. Libbrecht and Patricia Rasmussen) Glen E. Liston, CSU Matthew.

DEVELOPMENT OF A NEW LETTUCE ICE FORECAST SYSTEM FOR YUMA COUNTY Paul Brown Mike Leuthold University of Arizona.

U.S. EPA and WIST Rob Gilliam *NOAA/**U.S. EPA

Examining the relationship between albedo and cold air pool strength during the Persistent Cold Air Pool Study Christopher S. Foster John Horel Dave BowlingSebastian.

Investigating the typical occurrence of cold-air-pools during the COLd air Pool Experiment (COLPEX) Bradley Jemmett-Smith 15 th Conference of Mountain.

` Observations of Great Salt Lake Breezes During Salt Lake Valley Persistent Cold Air Pools Erik Crosman, John Horel, Neil Lareau, and Xia Dong University.

Dust aerosols in NU-WRF – background and current status Mian Chin, Dongchul Kim, Zhining Tao.

Resource Management Planning Air Quality Brock LeBaron Department of Environmental Quality Division of Air Quality

Impacts of Meteorological Conditions Modified by Urban Expansion on Surface Ozone over Yangtz River Delta and Pearl River Delta region, China Xuemei Wang,

Division of Air Quality Utah Department of Environmental Quality PM Hour NAAQS Modeling Issues in the State of Utah WRAP Workshop on Regional Emissions.

Characterizing the Boundary-Layer During the Uintah Basin Ozone Study Erik Crosman John Horel Others: Matt Lammers, Alex Jacques, Nola Lucke, John Lawson,

Fire impacts – Natural event data exclusions/ozone monitoring Colleen Delaney, Utah Division of Air Quality March 11, 2004.

number Typical aerosol size distribution area volume

Improving Air Quality Modeling for the Wasatch Front/Cache Valley Winter Air Pollution Episodes Erik Crosman 1, John Horel 1, Lance Avey 2, Chris Foster.

Erik Crosman 1, John Horel 1, Chris Foster 1, Erik Neemann 1 1 University of Utah Department of Atmospheric Sciences Toward Improved NWP Simulations of.

WMO Space Programme Update

Weather forecasting in a coupled world

Meteorological Simulations of Utah Basin Cold-Air Pools

Erik M. Neemann, University of Utah

TRAX Monitoring of Air Quality in the Salt Lake Valley

TRAX Monitoring of Air Quality in the Salt Lake Valley

TRAX Monitoring of Air Quality in the Salt Lake Valley

GEOS-Chem and AMOD Average 48-hr PM2.5, December 9th-11th, 2017

2019 TEMPO Science Team Meeting

Improving Regional PM2.5 Modeling along Utah’s Wasatch Front

Presentation transcript:

Understanding the Weather Leading to Poor Winter Air Quality Erik Crosman 1, John Horel 1, Chris Foster 1, Lance Avey 2 1 University of Utah Department of Atmospheric Sciences 2 Utah Division of Air Quality

A Global Problem Exacerbated by Topography Annual Average PM2.5 Grids from MODIS and MISR Aerosol Optical Depth (AOD), 2001–2010. Palisades, NY: NASA Socioeconomic Data and Applications Center (SEDAC). lobal-annual-avg -pm Los Angeles Basin Valley of Mexico Salt Lake Basin Moscova River Basin Sichuan Basin Johannesburg, South Africa Beijing Shanghai fires dust

MODIS Satellite Image of Pollution Episode February 24, 2005 Source: Asian Air Pollution edited by David L. Alles Sichuan Basin, China

Utah Basins Cache Valley Salt Lake Valley—Medium- sized partly open valley with large urban population Uintah Basin—Large very deep basin with small population Each basin has characteristic snow cover climatology and depth of ‘inversion’ resulting from confining topography Cache Valley Utah Valley Uintah Basin Great Salt Lake Basin Salt Lake Valley

Basic Weather Features Associated with Poor Winter Air Quality: Well-Understood H High pressure Cold, dirty air Warm, clean air Light winds

Critical Weather Details Associated with Poor Winter Air Quality: Difficult to Predict Clouds Snow Cover and Land Use Mixing Depth of polluted layer Transport

CLOUDS? DURATION DEPTH? Wintertime ‘Inversions’: Models Needed to Understand Complex Feedbacks SNOW?

Great Salt Lake Salt Lake Valley Salt Lake Valley Great Salt Lake Which Model is Right? Temperature (ᵒC) Wind Speed (m s -1 ) sltrib.com Toxic soup continues… Time to exercise!

Improving Weather Models of Wintertime Inversions The Environmental Protection Agency (EPA), Western Regional Air Partnership (WRAP) and Utah Division of Air Quality (UDAQ) have identified the need for improved meteorological models of wintertime stagnation episodes Collaborative effort (July 2014-January 2016) between UofU and UDAQ to improve modeling funded by the Utah Legislature Builds on collaborative work with Utah State University

Weather Research and Forecasting Model (WRF) Full-physics meteorological model Model time step in inner domain ~5 seconds Run in parallel on processors Parameterizations for clouds, radiation, surface fluxes, turbulent mixing, precipitation, etc Grid spacing = 12 km Grid spacing = 4 km Grid spacing = 1.3 km

Improvements Being Tested For Wintertime Modeling in Utah Basins 1) Improved cloud and mixing algorithms 2) Increased model grid spacing 3) Improved model initialization 4) Improved treatment of snow cover and vegetation See posters x.x and x.x for more detailed information Liquid Ice

High sensitivity to snow cover and snow age and reflectivity – Current research focused on identifying appropriate sources of land use and vegetation information Cloud thickness and type varies depending on parameterization chosen – Current research focused on improving model treatment of clouds Critical Components: Snow and Clouds

Christmas 2014 Snowfall Cache Valley Utah Valley Uintah Basin Great Salt Lake Basin Salt Lake Valley 20 December December 2014

Initialization 24 hours later is significantly warmer Initialization 1 31 December January January 2011 WRF CAP Sensitivity to Initialization Time Identical simulations started 1 day apart Obs 31 Dec 1 Jan Timing is Everything! 1 Jan

Synthesizing Observations and Modeling in Utah Basins… Monitoring air pollution from TRAX (see Mitchell et al. poster x.x). U of U ceilometer and mini-sodar network – additional experimental air quality and met instrumentation installed during last few months 2 September 2013 TRAX Red Line

Summary and Future Work Ongoing work to improve wintertime modeling for Wasatch Front and Cache Valley Work focusing on: – model grid resolution – cloud parameterization schemes – specifying snow surface appropriately

Background Information Neemann, E.M., E.T. Crosman, and L. Avey, Simulations of a cold-air pool with elevated wintertime ozone in the Uintah Basin, Utah. Atmos. Chem. Phys., 14, 1-17, Lareau, N. P. and Horel, J. D.: Dynamically induced displacements of a persistent cold-air pool, Bound.-Lay. Meteor., doi: /s , available at: , Lareau, N. P., Crosman, E. T., Whiteman, C. D., Horel, J. D., Hoch, S. W., Brown, W. O. J., and Horst, T. W.: The persistent cold-air pool study, B. Am. Meteorol. Soc., 94, 51–63, doi: /BAMS-D , 2013.