1 / 15

NOAA Fire Weather Research Program LAPS Downscaling Sher Schranz NOAA FWRP Program Manager

NOAA Fire Weather Research Program LAPS Downscaling Sher Schranz NOAA FWRP Program Manager. NOAA Fire Weather Research Directives. Western Governor’s Association 2008 Report Recommendations NOAA Science Advisory Board, Fire Weather Research Working Group, 2009

noelle
Download Presentation

NOAA Fire Weather Research Program LAPS Downscaling Sher Schranz NOAA FWRP Program Manager

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. NOAA Fire Weather Research Program LAPS Downscaling SherSchranz NOAA FWRP Program Manager

  2. NOAA Fire Weather Research Directives • Western Governor’s Association 2008 Report Recommendations • NOAA Science Advisory Board, Fire Weather Research Working Group, 2009 • 2010 NWS Science and Technology Fire Weather Road Map, and 2012 NWS Weather Ready Nation Road Map • NWS “Social Sciences Strategic Plan for Weather and Water”, 2010 • Office of the Federal Coordinator for Weather, 2011 updated Fire Weather Research Report

  3. NWS S&T Roadmap Fire WeatherVision/Outputs/Impacts • Vision • High-resolution fire weather information and services, in close collaboration with agency partners, focused on providing impact-oriented, integrated improvements of fire danger and behavior predictions that save lives and reduce impact to property • Impacts • Improved decision support systems and tools • Extended lead time of high threat areas • Efficient evacuation of threatened communities • Reduced risk of escaped prescribed burns • Reduced out-of-control acreage burned • Improved public safety (evacuations)

  4. NOAA’s Fire Weather Response: Improving Essential Services Coupled Fire Scale Weather/ Fire Behavior models, 100 Meters Smoke Pollution Forecast System National Hi-Res Rapid Refresh 1Km Model Leverage Fire Community research, Joint Fire Sciences, University, NIDIS Observations and Data bases of Forest Fuels, Fire Spread, Fire Behavior, Smoke Dispersion New and Improved Fire Weather and Fire Behavior Decision Support Products Emerging Observing Systems: UAS, GPS-Met, Added RAWS Increase # and Frequency of Observations over Fires Stake Holders: US Forest Service, BLM, Fire-Prone States Services Proving Ground Tactical Decision Products More Accurate Fire Weather Forecasts Improved Wind Forecasts GIS-Layered Model Outputs Decision Support Tools for Incident Management Targeted Fire Potential Information Public Safety, Economic Benefit, Supports Federal Fire Use and Suppression Policies

  5. Executing Directives at OAR Modeling • Downscaling Winds (LAPS/STMAS) (GSD) • Integrated Smoke forecasts (HR/Chem/Fire) (GSD) • Improved lightning prediction algorithms (NSSL) • Use of HySplit model by NWS Incident Meteorologists (IMETs) (ARL) • Observing Systems • Proposed use of small Unmanned Aircraft Systems • over prescribed burns and active fires. (NOAA Partnership • with Center for Unmanned Aircraft Systems, C-UAS) • Distribution of EPA AirNowdata to operations (GSD,FX-Net) • Use of NESDIS satellite products in models and distributedto operations (GSD, FX-Net) • USFS/NWS experimental model data distributed to • operations (GSD,FX-Net)

  6. IMETs Forecast Tools and Needs • Laptop w/“FX-Net” software, access to models, satellite, radar, observations • Need Hi-Res Forecasts

  7. Fire Modeling Challenges: Large range of scales Need to close the Gap ESRL HRRR with Fire Emissions NIST Neighborhood Scale WFDS ~1000 km (domain) ~1 km (grid cell) ~1 km (domain) ~1 m (grid cell) Gap (LAPS/STMAS) regional NIST Laboratory Scale WFDS community neighborhood lab

  8. Automated Downscaling in Fire Weather Incident report Fills in the small scales Photo courtesy W. (Ruddy) Mell Regional scale data LAPS/STMAS Fine scale forecast Downscaling

  9. Fire Mapping • Communications • Fire Scene Weather Obs Fire Weather Ops of the Future Model Output: Fire Scale Wind Analysis (500 meter), Coupled Fire Weather/Fire Behavior/Smoke Forecasts Model Products: Hourly Fire Scale Wind, RH, Temp, Smoke Plume & Dispersion Critical Scene Wind Profiles Uncertainty Guidance Intelligent Assistant AWIPS II Thin Client Decision Support Tools IMET Briefing Incident Command Fire Analyst (FBAN) Fire Fighter Crew Chiefs • Fire Perimeter Forecast Map • GIS Smoke Dispersion map • Severe Weather Impacts map

  10. Multiscale Downscaling in Fire Weather Research Hongli Jiang’s slides

  11. Downscaling in Fire Weather Research • In regions over complex terrain, observations are sparse, or lack of high-quality measurements, downscaled data will provide dynamically balanced fine scale proxy for analysis; • Downscaling is an integral part of the variational LAPS (STMAS); is part of the dynamic constraint, and is in the terrain-following coordinate; • Downscaling can work as a stand alone module to use in many applications, Aviation, Fire Weather, Renewable energy; For fire weather -- to generate high resolution winds, Temperature, Humidity over complex terrain; • NCEP expresses strong interest in the downscaling for use in conjunction with other data sources

  12. DataIngest Intermediate data files GSI Model prep FORECAST MODEL Verification SCHEMATIC ANALYSIS & FORECAST DATA FLOW Background (or cycled forecast) Observations Data Downscaling Analysis Scheme Variational LAPS (Downscaling) LAPS Downscaling can work as a stand alone module from background  GSI or other applications such as Fire wx. Downscaling is also an integral part of variational LAPS (STMAS).

  13. Four Mile Canyon Fire, Boulder, CO (6 Sept. 2010) LAPS 1km wind Analysis, 6 Sept. 2010, 22UTC • No surface OBS in Four Mile Canyon; • Few OBS over the higher terrain; • Observed wind over complex terrain is known to be unreliable • How to evaluate?

  14. Example of Downscaling: Four Mile Canyon Fire Surface U wind (colors) 36 33 30 27 24 21 18 15 12 9 6 3 0 -3 -6 Initial input at 8km res NORTH-SOUTH Contour lines: topography 0 100 200 EAST – WEST (km) Downscaled output at 1km resolution Finer details in wind in response to high resolution terrain 0 200 100 EAST – WEST (km)

  15. Status of STMAS downscaling Progress: • Wind analysis shows very promising fine scale structure in steep terrain areas; these areas are crucial for Fire Weather; • Developed codes to ingest observational data on terrain following coordinate, and tested on various domains and cases; Issues • Temperature and Pressure analysis are not satisfactory; the issue is a highly non-linear, and has multiple solutions; • Several schemes have been proposed and tested; one scheme is to use WRF to integrate the background data for a few iterations to obtain more balanced initial guess; • Addresses difficulty with running WRF at 1 km resolution over complex terrain.

More Related