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Multi-Year Examination of Dense Fog at Burlington International Airport. John M. Goff NOAA/NWS Burlington, VT. Emphasis of Research.
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Multi-Year Examination of Dense Fog at Burlington International Airport John M. Goff NOAA/NWS Burlington, VT
Emphasis of Research • To examine the long-term occurrence of dense fog at Burlington International Airport (BTV) in an effort to understand synoptic and mesoscale signals that favor its formation. • To improve short term low instrument flight rule (LIFR) forecasts at BTV.
Data Specifics • Hourly weather data at BTV from January 1979 to December 2003 (24 yrs.) • Data coincidental with NCEP North American Regional Reanalysis (NARR) data • Criteria for dense fog occurrence: visibility 0.5 km
Data Specifics Contd. • Fog classification similar to Tardy 2000. • Six types used, including: - radiation fog (type RF) (wind speed 5 knots under mainly clear skies at fog onset) - advection fog (type AF) (wind speed must be > 5 knots with sudden drop in vis.) - fog produced by precipitation (type PF) (precipitation must fall within 3 hours of fog onset) - fog resulting from the lowering of cloud base (type LCB) - fog resulting from the evaporation of surface moisture at sunrise (type EF) - indeterminate (type IF)
Preliminary Findings • Fog types RF, PF, and LCB comprise 94% of all events • About 5 RF and 9 PF or LCB events per year
Preliminary Findings Contd. • Frequency distribution plots of dominant fog types: - type RF maximum in late summer/early fall - combined types PF/LCB maximum in cold season (Nov – Mar)
Wind Rose Data • Wind rose plots were compiled for all type RF, and combined type PF/LCB events • Distinct directional trends in the data are evident in the plots - Type RF events – light northeast to east flow - Combined type PF/LCB events – variable wind speeds predominately from the north or northwest
Wind Rose Data Type RF Events • Type RF (34% of all events ) – drainage wind from northeast to east - Strong mesoscale signal that radiation fog drifts across runway from Winooski River valley to immediate northeast and east - Few events with onset wind directions outside of the 045 to 135 sector
Wind Rose Data for Combined Type PF/LCB Events • Combined types PF/LCB (60% of all events) – variable wind speeds predominantly from the north and northwest • Strong north/northwest signal supports prior evidence that this flow regime enhances low level mesoscale convergence in the northern Champlain Valley
NARR Data Analysis • Mean sea level pressure plots compiled across the eastern U.S. at time of onset of each type RF, PF and LCB event • Several synoptic patterns identified favoring each dominant fog type
NARR Analysis of Type RF Events • Anticyclone building into northern Vermont from the north or northwest • Anticyclone building into northern Vermont from the west or southwest • Anomalous/indeterminate events • Many events appear to be preceded by a weak frontal passage some 6 to 18 hours in advance
NARR Analysis of Type RF Events Contd. • Anticyclone building into northern Vermont from north or northwest
NARR Analysis of Type RF Events Contd. • Anticyclone building into northern Vermont from west or southwest
NARR Analysis of Combined Type PF/LCB Events • Cold or occluded frontal passage • Approach of warm front • Convergent northerly flow north or west of surface cyclone
NARR Analysis of Combined Type PF/LCB Events Contd. • Cold or occluded frontal passage
NARR Analysis of Combined Type PF/LCB Events Contd. • Approach or passage of warm front
NARR Analysis of Combined Type PF/LCB Events Contd. • Convergent northwest flow on west to northwest side of surface cyclone
Other Findings • Did antecedent precipitation affect the likelihood of RF events? - most likely no
Future Initiatives • Focus on long-duration RF, PF and LCB events per importance to aviation • Composite analysis of long-duration events using NARR data (McGill U.)
Limitations • Differences in hourly data (pre-ASOS vs. human observer) • Study addresses low visibility/dense fog events only. Do signatures identified pertain to all IFR events?
Conclusions • 24 years of dense fog climatology examined • Majority of events were either radiation fog, or fog resulting from precipitation or lowering of cloud base • Clear directional trends in wind data • Several synoptic mean sea level pressure patterns favor the dominant events
Acknowledgements • The author would like to thank Paul Sisson (SOO WFO BTV) for overall guidance and assistance with this project • Thanks is also given to Eyad Atallah ofMcGill University for work on the composite analysis, and to Conor Lahiff of WFO BTV for help with the wind rose plotting software