Hydrometeorological Forecasting Lab: Predicting Heavy Rainfall, Flash Flooding, & Stormwater Runoff Meteorologist Anthony Phillips [email protected]| www.wx4sno.com Recognize & understand basic synoptic features on weather maps Become acquainted with links to weather forecasting charts and graphics on the internet Determine when and where heavy rainfall will occur & if flooding
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Recognize & understand basic synoptic features on weather maps
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Hydrometeorological Forecasting Lab:Predicting Heavy Rainfall, Flash Flooding, & Stormwater Runoff
Recognize & understand basic synoptic features on weather maps Become acquainted with links to weather forecasting charts and graphics on the internet Determine when and where heavy rainfall will occur & if flooding could be a concern Learn how to calculate stormwater runoff problems
Review of 2/28 Severe Weather
0.56” of rain fell in Muncie on Friday, 25-Feb-2011 Rain changed to snow which accumulated to 5.8” by late Friday
Strong to severe storms developed across central Indiana late on Sunday, 27-Feb-2011
Thunderstorm “training” effect produced torrential rainfall Combined with already saturated ground and left-over snow
pack, flash flooding occurred quickly across much of Indiana
High pressure systems: H Associated with sinking air & clear skies No precipitation
Low pressure systems: L Associated with rising air, cloudy conditions Usually produce precipitation
Surface Weather Analysis
Upper Air Charts
http://www.nco.ncep.noaa.gov/pmb/nwprod/analysis/
Time of day will determine which UTC time to choose If it’s currently morning: use 00 UTC column & select “fine” If it’s currently evening: use 12 UTC column & select “fine”
Provides a forecasted amount of precipitation over a certain amount of time Useful for locating areas of heaviest precipitation 1, 2, 3+ days in the future
Excessive Rainfall: If extreme rainfall is expect, this product outlines areas that are at risk Levels of risk are outlined as follows:
PQPF: Probabilistic Quantitative Precipitation Forecast(s) % probability of certain amount of rainfall occurring over a particular area
Flood Outlooks Winter Weather Outlooks, Heat Indicies, Air Quality
Allows for monitoring of stream and river stages Current, past, and sometimes forecasted stages Also provides flow in cubic feet per second (ft3 sec-1)
Location information provided about the gage Latitude/Longitude Google map Photographs Trouble spots
More simply, Doppler radar or just radar 100+ Doppler sites Provides a look at current precipitation, as well as previous amounts Also can measure wind speed by the Doppler effect
http://www.srh.noaa.gov/rfcshare/ffg.php FFG: Flash Flood Guidance Provides an estimate of how much precipitation (in inches)
within a certain amount of time is needed to cause flash flooding over a particular area County-by-county coverage Mostly available in 1-Hr, 3-Hr, 6-Hr, 12-Hr, 24-Hr time frames
What state does this FFG map cover? For what time-frame is this FFG? Locate the Great Smoky Mountains
Along the middle of the Tennessee/North Carolina border What is the FFG value for the Smokies on the Tennessee-side?
Flash Flood Guidance (FFG)
An example, cont: From the previous
slide, we determined the 6-hr FFG value to be: 3.0”
To the right is a radar image showing rainfall for 6-hours across the same region.
According to this image, about how much rainfall has occurred near the white line
Flash Flood Guidance (FFG)
Follow these rules when comparing FFG to either radar values or to QPF:
If FFG value > QPF/radar value = no flash floodingIf FFG value < QPF/radar value = flash flooding
So, to recap: If the FFG map indicates a larger number than what is
shown on radar or is forecasted on QPF maps, then flooding is unlikely
If the FFG map indicates a smaller value compared to what’s shown on radar or forecasted on QPF maps, then expect some sort of flooding/flash flooding
Stormwater Volume Calculations
Example:Assume the HPC is forecasting 0.50” of rainfall over the Muncie area on Day 1. We later observe this to be true by looking at Doppler radar total rainfall for the 24 hour period on Day 1. Knowing that 0.50” of rain fell over one township in Muncie, how many gallons of runoff will there be, assuming that the entire township is an impermeable surface?
Stormwater Volume Calculations
Example, cont:
Step 1: Determine how many gallons are in 1 square mile
Convert your units to match one another:
Stormwater Volume Calculations
Example, cont: Now that everything is in the same units of feet, find the
cubic volume:
Now convert this cubic feet value to gallons (recall the conversion factor: 1 ft3 = 7.48 gal)
Stormwater Volume Calculations
Example, cont: So we know that this value of 8.75 million gallons is
equal to the amount over 1 square mile
Step 2: Determine how many gallons of rain there are over 36 square miles (1 township)
Stormwater Volume Calculations
Example, cont: From this example above, we can see that 0.50” of rain
over one township in Muncie produces 315 million gallons of runoff.
Stormwater Volume Calculations
In-class Exercise: Weather observation equipment at Muncie recorded 2.68” of
rainfall on Monday, February 28, 2011. How many gallons of runoff occurred as a result of this rainfall across Center Township in Delaware County? Assume 70% of the township is impermeable.
Comments/Questions???
If you find yourself in need of help, please drop by my office in room CL 427 within the Geography Department, Cooper Science Complex (just down from West Quadrangle). My office hours: