Generalization of the Holland Parametric Tropical Cyclone Model … · 2015-11-16 ·...
Transcript of Generalization of the Holland Parametric Tropical Cyclone Model … · 2015-11-16 ·...
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Generalization of the Holland Parametric Tropical Cyclone Model for
Forecast Applications
Jie Gao, Rick Luettich University of North Carolina at Chapel Hill
Jason Fleming Seahorse Coastal Consulting
14th International Workshop on Wave Hindcasting and Forecasting / 5th Coastal Hazards Symposium / 2nd International Storm Surge Symposium
Key West, FL, November 9, 2015
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Goal
Hurricane Irene Advisory 23 ZCZC MIATCMAT4 ALL TTAA00 KNHC DDHHMM HURRICANE IRENE FORECAST/ADVISORY NUMBER 23 NWS NATIONAL HURRICANE CENTER MIAMI FL AL092011 0300 UTC FRI AUG 26 2011 ................... more data ................... HURRICANE CENTER LOCATED NEAR 28.3N 767.3W AT 26/0300Z POSITION ACCURATE WITHIN 15 NM PRESENT MOVEMENT TOWARD THE NORTH OR 350 DEGREES AT 12 KT ESTIMATED MINIMUM CENTRAL PRESSURE 942MB EYE DIAMETER 25 NM MAX SUSTAINED WINDS 100 KT WITH GUSTS TO 120 KT. 64 KT....... 70NE 60SE 25SW 50NW. 50 KT.......110NE 100SE 50SW 75NW. 34 KT.......250NE 200SE 125SW 160NW. 12 FT SEAS..330NE 300SE 120SW 270NW. WINDS AND SEAS VARY GREATLY IN EACH QUADRANT. RADII IN NAUTICAL MILES ARE THE LARGEST RADII EXPECTED ANYWHERE IN THAT QUADRANT. ................... more data ...................
Wind Model for storm surge / wave forecasts
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Advisory Information
Tropical cyclone storm parameters provided in NHC ATCF Best Track or Forecast Advisories
Every 6 hours
lon, lat of center of eye Vtrans
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Advisory Information
Vmax
R64 R50 R34
Tropical cyclone storm parameters provided in NHC ATCF Best Track or Forecast Advisories
Every 6 hours
lon, lat of center of eye Vtrans
Rmax - not given in Forecast Advisories
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Radial Pressure / Wind Profile (Holland 1980)
𝑃 𝑟 = 𝑃𝑐 + 𝑃𝑛 − 𝑃𝑐 𝑒−𝐴 𝑟𝐵⁄
Hyperbolic hurricane pressure profile (Schloemer 1954):
(1)
𝑉𝑔 𝑟 = 𝐴𝐴 𝑃𝑛 − 𝑃𝑐 𝑒−𝐴 𝑟𝐵⁄ 𝜌𝑟𝐵� + 𝑟𝑟2
2 − 𝑟𝑟2
Substitute (1) into the gradient wind equations, the gradient wind velocity is:
(2)
Gradient wind equation
𝑉𝑔2
𝑟+ 𝑓𝑉𝑓 − 1
𝜌0
𝜕𝜕𝜕𝑟
= 0
(3)
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Radial Pressure / Wind Profile (Holland 1980)
To derive relationships for scaling parameters A, B assume @ r =Rmax
• Vg=Vmax
• dVg/dr = 0 • cyclostrophic wind balance Ro = Vmax /𝑓Rmax>>1
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Radial Pressure / Wind Profile (Holland 1980)
𝑉𝑔 𝑟 = 𝑉𝑚𝑚𝑚2 𝑒 1− 𝑅𝑚𝑚𝑚 𝑟⁄ 𝐵 𝑅𝑚𝑚𝑚 𝑟⁄ 𝐵 + 𝑟𝑟2
2− 𝑟𝑟
2
Substitute Eqs. (4) & (5) into Eqs. (1) & (3) - final Holland equations:
𝑃 𝑟 = 𝑃𝑐 + 𝑃𝑛 − 𝑃𝑐 𝑒− 𝑅𝑚𝑚𝑚 𝑟⁄ 𝐵
(7)
(6)
𝐴 = 𝑉𝑚𝑚𝑚2 𝜌𝑒 𝑃𝑛 − 𝑃𝑐⁄ (5)
𝐴 = 𝑅𝑚𝑚𝑚𝐵 (4)
Holland “B”
To derive relationships for scaling parameters A, B assume @ r =Rmax
• Vg=Vmax
• dVg/dr = 0 • cyclostrophic wind balance Ro = Vmax /𝑓Rmax>>1
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log10 Ro
Ro = Vmax /𝑓Rmax
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Generalized Holland Wind Model
𝑃 𝑟 = 𝑃𝑐 + 𝑃𝑛 − 𝑃𝑐 𝑒−𝐴 𝑟𝐵⁄
Hyperbolic hurricane pressure profile (Schloemer 1954):
(1)
𝑉𝑔 𝑟 = 𝐴𝐴 𝑃𝑛 − 𝑃𝑐 𝑒−𝐴 𝑟𝐵⁄ 𝜌𝑟𝐵� + 𝑟𝑟2
2 − 𝑟𝑟2
Substitute (1) into the gradient wind equations, the gradient wind velocity is:
(2)
Gradient wind equation
𝑉𝑔2
𝑟+ 𝑓𝑉𝑓 − 1
𝜌0
𝜕𝜕𝜕𝑟
= 0
(3)
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Generalized Holland Wind Model
To derive relationships for scaling parameters A, B assume @ r =Rmax
• Vg=Vmax
• dVg/dr = 0 NO ASSUMPTION ON Ro
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Generalized Holland Wind Model
Substitute Eqs. (4) & (5) into Eqs. (1) & (3) - Generalized Holland equations:
𝐴𝑓 = 𝐴1 + 1 𝑅0⁄ 𝑒𝜑−1
𝜑 (5)
𝐴 = 𝜑𝑅𝑚𝑚𝑚𝐵 (4)
Generalized Holland “Bg”
𝑉𝑔 𝑟 = 𝑉𝑚𝑚𝑚2 (1 + 1/𝑅𝑅)𝑒𝜑 1− 𝑅𝑚𝑚𝑚 𝑟⁄ 𝐵𝑔 𝑅𝑚𝑚𝑚 𝑟⁄ 𝐵𝑔 + 𝑟𝑟2
2− 𝑟𝑟
2
𝑃 𝑟 = 𝑃𝑐 + 𝑃𝑛 − 𝑃𝑐 𝑒−𝜑 𝑅𝑚𝑚𝑚 𝑟⁄ 𝐵𝑔
(7)
(6)
𝜑 = 1 + 1 𝑅𝑜⁄𝐵𝑔 1+1 𝑅𝑜⁄ where 𝐴 = 𝑉𝑚𝑚𝑚2 𝜌𝑒 𝑃𝑛 − 𝑃𝑐⁄
To derive relationships for scaling parameters A, B assume @ r =Rmax
• Vg=Vmax
• dVg/dr = 0 NO ASSUMPTION ON Ro
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So What?
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Asymmetric Holland Model (Xie et al 2006)
𝑉𝑔 𝑟,θ = 𝑉𝑚𝑚𝑚2 𝑒 1− 𝑅𝑚𝑚𝑚 𝑟⁄ 𝐵 𝑅𝑚𝑚𝑚 𝑟⁄ 𝐵 + 𝑟𝑟
22− 𝑟𝑟
2
𝑃 𝑟 = 𝑃𝑐 + 𝑃𝑛 − 𝑃𝑐 𝑒− 𝑅𝑚𝑚𝑚 𝑟⁄ 𝐵
𝐴 = 𝑉𝑚𝑚𝑚2 𝜌𝑒 𝑃𝑛 − 𝑃𝑐⁄
• Forecast Advisory don’t know Rmax
• Use 𝑉𝑔 = 64 knots @ r=R64 , to solve for Rmax in each storm quadrant (NE, NW, SW, SE)
• Interpolate Rmax around storm Rmax (θ)
• Doesn’t use R50 , R35
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Generalized Asymmeyric Holland Wind Model - 1
• Forecast Advisory don’t know Rmax
• Use 𝑉𝑔 = 64 knots @ r=R64 , to solve for Rmax in each storm quadrant (NE, NW, SW, SE)
• Interpolate Rmax around storm Rmax (θ)
𝑃 𝑟 = 𝑃𝑐 + 𝑃𝑛 − 𝑃𝑐 𝑒−𝜑 𝑅𝑚𝑚𝑚 𝑟⁄ 𝐵𝑔
𝜑 = 1 + 1 𝑅𝑜⁄𝐵𝑔 1+1 𝑅𝑜⁄
𝐴 = 𝑉𝑚𝑚𝑚2 𝜌𝑒 𝑃𝑛 − 𝑃𝑐⁄
𝐴𝑓 = 𝐴1 + 1 𝑅0⁄ 𝑒𝜑−1
𝜑
𝑉𝑔 𝑟,θ = 𝑉𝑚𝑚𝑚2 (1 + 1/𝑅𝑅)𝑒𝜑 1− 𝑅𝑚𝑚𝑚 𝑟⁄ 𝐵𝑔 𝑅𝑚𝑚𝑚 𝑟⁄ 𝐵𝑔 + 𝑟𝑟2
2− 𝑟𝑟
2
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Radial Wind Profiles using R64
NE
Isot 34
Isot 50
Isot 64
Composite
SE SW NW
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Generalized Asymmetric Holland Wind Model - 2
• Forecast Advisory don’t know Rmax
• Use 𝑉𝑔 = 50 knots @ r=R50 , to solve for Rmax in each storm quadrant (NE, NW, SW, SE)
• Interpolate Rmax around storm Rmax (θ)
𝑃 𝑟 = 𝑃𝑐 + 𝑃𝑛 − 𝑃𝑐 𝑒−𝜑 𝑅𝑚𝑚𝑚 𝑟⁄ 𝐵𝑔
𝜑 = 1 + 1 𝑅𝑜⁄𝐵𝑔 1+1 𝑅𝑜⁄
𝐴 = 𝑉𝑚𝑚𝑚2 𝜌𝑒 𝑃𝑛 − 𝑃𝑐⁄
𝐴𝑓 = 𝐴1 + 1 𝑅0⁄ 𝑒𝜑−1
𝜑
𝑉𝑔 𝑟,θ = 𝑉𝑚𝑚𝑚2 (1 + 1/𝑅𝑅)𝑒𝜑 1− 𝑅𝑚𝑚𝑚 𝑟⁄ 𝐵𝑔 𝑅𝑚𝑚𝑚 𝑟⁄ 𝐵𝑔 + 𝑟𝑟2
2− 𝑟𝑟
2
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Radial Wind Profiles using R50
NE
Isot 34
Isot 50
Isot 64
Composite
SE SW NW
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Generalized Asymmetric Holland Wind Model - 3
• Forecast Advisory don’t know Rmax
• Use 𝑉𝑔 = 35 knots @ r=R35 , to solve for Rmax in each storm quadrant (NE, NW, SW, SE)
• Interpolate Rmax around storm Rmax (θ)
𝑃 𝑟 = 𝑃𝑐 + 𝑃𝑛 − 𝑃𝑐 𝑒−𝜑 𝑅𝑚𝑚𝑚 𝑟⁄ 𝐵𝑔
𝜑 = 1 + 1 𝑅𝑜⁄𝐵𝑔 1+1 𝑅𝑜⁄
𝐴 = 𝑉𝑚𝑚𝑚2 𝜌𝑒 𝑃𝑛 − 𝑃𝑐⁄
𝐴𝑓 = 𝐴1 + 1 𝑅0⁄ 𝑒𝜑−1
𝜑
𝑉𝑔 𝑟,θ = 𝑉𝑚𝑚𝑚2 (1 + 1/𝑅𝑅)𝑒𝜑 1− 𝑅𝑚𝑚𝑚 𝑟⁄ 𝐵𝑔 𝑅𝑚𝑚𝑚 𝑟⁄ 𝐵𝑔 + 𝑟𝑟2
2− 𝑟𝑟
2
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Radial Wind Profiles using R34
NE
Isot 34
Isot 50
Isot 64
Composite
SE SW NW
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Summary of Radial Wind Profiles
NE
Isot 34
Isot 50
Isot 64
Composite
SE SW NW
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GAHM uses a linear weighting of parameter sets computed from all available isotachs in each quadrant.
Weighted Composite Wind Field in GAHM
R64 R50 R34
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GAHM Composited Radial Wind Profiles
NE
Isot 34
Isot 50
Isot 64
Composite
SE SW NW
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Validation
Use Best Track data for 7 storms (Does contain Rmax)
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Validation
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Validation
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Validation
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Validation
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A new “Generalized Asymmetric Holland Model" developed for Tropical Cyclone wind fields • Expands range of storm conditions (larger storms, weaker storms)
often typical near landfall • Fits multiple isotachs, provides reasonable winds over large areal
extent • Reasonably captures complexities of storm within constraints of a
parametric model
Comparisons between GAHM and H*Wind & OWI wind fields provide confidence for using in storm surge calculations Available as part of ADCIRC storm surge model
Conclusions