102
Validation and development of existing and new RAOB-based warm-season convective wind forecasting tools for Cape Canaveral Air Force Station and Kennedy Space Center
Mitchell H. McCue, Plymouth State University, Plymouth, NH; and J. P. Koermer, T. R. Boucher, and W. P. Roeder
Based on 13 years (1995 to 2007) of warm-season (May through September) 1500 UTC rawindsonde observation (RAOB) data from the Cape Canaveral Air Force Station (CCAFS) Skid Strip (KXMR) and 5 minute wind data from 36 wind towers on CCAFS and Kennedy Space Center (KSC), we have evaluated current convective wind forecasting techniques employed by the 45th Weather Squadron (45 WS) and developed several new forecasting methods for predicting the occurrence of warm-season convection and the associated wind gusts. This research is being performed in order to help the 45 WS better forecast when warning level wind events of 35 knots or greater may occur. Present forecasting methods under evaluation include the Wind Index (WINDEX), the Microburst Day Potential Index (MDPI), and the Wet Microburst Severity Index (WMSI). Although previous research found that none of these indices showed much promise for forecasting convective winds, it was carried out with a very small sample, limiting the reliability of the results. Evaluation versus a larger 13 year dataset was performed to truly assess the forecasting utility of these methods in the central Florida warm-season convective environment.
Updated forecasting methods are being constructed using open-source “R” statistical software and incorporate several classical statistical techniques such as multiple linear regression and logistic regression as well as newer techniques like classification and regression trees (CART). Validation is presently being completed on the newly developed forecasting processes with an independent dataset from the 2008 warm-season. In addition, three classes of composite 1500 UTC KXMR profiles of theta-e, temperature, dew point, relative humidity, mixing ratio, wind speed, and wind direction are being built with one class for non-convective days, a second class for days with convection and observed wind gusts less than 35 knots, and a third class for convective days and peak winds in excess of 35 knots to aid in diagnosing what meteorological parameters favor the occurrence of warning criteria winds. A previous climatology of the distribution of convective wind speeds indicated that differentiating between convective winds less than 35 knots and greater than 35 knots is important to 45 WS operations.
Although much of this research is still currently underway, preliminary results yield more promise for differentiating between convective and non-convective days than for distinguishing between convective days with wind gusts above or below 35 knots. So far, parameters showing potential for discriminating between days with warning (≥ 35 knots) or non-warning criteria winds, are theta-e profile, wind speed from the surface to 500 hPa, and wind direction from the surface to 500 hPa. Days with a larger theta-e differential between the surface and the mid-levels, a southwesterly wind flow, and slightly stronger low and mid-level winds are more likely to produce warning level convective winds.
Poster Session , Seasonal to Interannual Variability: Observations and Predictions
Tuesday, 19 January 2010, 9:45 AM-11:00 AM
Previous paper Next paper