Presentation is loading. Please wait.

Presentation is loading. Please wait.

Storm Surge Modeling for the New York City Metropolitan Region Brian A. Colle, Malcolm J. Bowman, Robert E. Wilson, Frank Buonaiuto, Robert Hunter, Douglas.

Published byMorgan Strickland Modified over 8 years ago

Similar presentations

Presentation on theme: "Storm Surge Modeling for the New York City Metropolitan Region Brian A. Colle, Malcolm J. Bowman, Robert E. Wilson, Frank Buonaiuto, Robert Hunter, Douglas."— Presentation transcript:

1 Storm Surge Modeling for the New York City Metropolitan Region Brian A. Colle, Malcolm J. Bowman, Robert E. Wilson, Frank Buonaiuto, Robert Hunter, Douglas Hill, Roger Flood, Yi Zheng, and Christian Mirchel Stony Brook Storm Surge Research Group Marine Sciences Research Center Stony Brook University / SUNY Photo: copyright 2004 Twentieth Century Fox

2

3 A nor-easter in November 1950 caused extensive flooding of La Guardia airport (Bloomfield, 1999) FDR Drive during the December 1992 nor’easter (Bloomfield, 1999) Ref: Bloomfield, J., M. Smith and N. Thompson, 1999. Hot Nights in the City. Environmental Defense Fund, New York.

4

5 Nor’easter Storm Surge Nor’easter Storm Surge 5-8 March 1962 storm Source: N.A. Pore and C.S Barrientos, Storm Surge, 1976. 2 2 2 2 2 (feet)

6

7 Lidar image of business district of Manhattan showing seawall locations and elevation (arrows). The imager is flying above the Hudson River looking east.

8 New York City Flooding Source: Metro New York Hurricane Transportation Study, 1995 Flood areas for hurricane: CAT 1 CAT 2 CAT 3 CAT 4

9 NYC Rise in Sea Level (courtesy Robert J. Nicholls) Observations Projection

10 Stony Brook Real-time MM5: 36 km,12 km and 4 km domains.

11 ADCIRC and MM5 (12 km) model domain. Storm Surge modeling uses12-km MM5 and Advanced Circulation Model for Coastal Ocean Hydrodynamics (ADCIRC)– run in barotropic mode

12 ADCIRC Grid Around Long Island and NYC

13 Detail of gridding in lower Manhattan up to +8 m contour

14 Track of Floyd (1999)

15 Floyd Surface: 2100 UTC 16 Sept 1999 See (Colle MWR 2003)

16 12-km MM5 at 2100 UTC 16 Sept 1999 (21 h) 10 12 18 22 26 oCoC L

17

18

19 Comparison of observations and modeling of sea level during Floyd

20 X What if peak observed surge occurred during Spring tide a week earlier? X

21 Model comparison of water levels at the Battery, NYC for CTL, Shifted, Super, and Max Floyd

22 Flooding experiments superimposed on topo and aerial photo Super Floyd (2 x winds) Max Floyd (shifted plus 2x winds)

23 Proposed Barrier Locations

24 close open close open The Narrows Perth Amboy Upper East River Water levels inside/outside barriers for Floyd simulations.

25 Incremental rise in water level east of closed East River barrier during CTL Floyd.

26 Venice Lagoon Design, 2010

27 http://stormy.msrc.sunysb.edu/

28 Real-time Northern Stations

29 Summary The New York City region is vulnerable to storm surge flooding. The New York City region is vulnerable to storm surge flooding. ADCIRC model realistically predicted the coastal water levels around NYC for Floyd (1999). ADCIRC model realistically predicted the coastal water levels around NYC for Floyd (1999). More severe flooding would have occurred if Floyd approached during high or spring tide or if it remained a CAT1 (70 kt) hurricane. More severe flooding would have occurred if Floyd approached during high or spring tide or if it remained a CAT1 (70 kt) hurricane. A real-time surge model system has been setup. Look for 4-5 ensemble members this winter. A real-time surge model system has been setup. Look for 4-5 ensemble members this winter. Storm surge barriers would likely work for NYC. Need to continue to investigate their feasibility. Storm surge barriers would likely work for NYC. Need to continue to investigate their feasibility. http://stormy.msrc.sunysb.edu/

Download ppt "Storm Surge Modeling for the New York City Metropolitan Region Brian A. Colle, Malcolm J. Bowman, Robert E. Wilson, Frank Buonaiuto, Robert Hunter, Douglas."

Similar presentations

Menéndez, Re & Kind Flood risk maps & salinity front FACULTAD DE INGENIERÍA UNIVERSIDAD DE BUENOS AIRES REGIONAL AIACC WORKSHOP Buenos Aires, Argentina.

Menéndez, Re & Kind Flood risk maps & salinity front FACULTAD DE INGENIERÍA UNIVERSIDAD DE BUENOS AIRES REGIONAL AIACC WORKSHOP Buenos Aires, Argentina.
The Storm Surge Toolkit Jamie Rhome Storm Surge Specialist/Team Lead National Hurricane Center Jamie Rhome Storm Surge Specialist/Team Lead National Hurricane.

The Storm Surge Toolkit Jamie Rhome Storm Surge Specialist/Team Lead National Hurricane Center Jamie Rhome Storm Surge Specialist/Team Lead National Hurricane.
Motivation The Carolinas has had a tremendous residential and commercial investment in coastal areas during the past 10 years. However rapid development.

Motivation The Carolinas has had a tremendous residential and commercial investment in coastal areas during the past 10 years. However rapid development.
New York City: The Rockaways Is New York City prepared to deal with the consequences of Sea-Level Rise in the Rockaways? Robert Tracey and Marquise McGraw.

New York City: The Rockaways Is New York City prepared to deal with the consequences of Sea-Level Rise in the Rockaways? Robert Tracey and Marquise McGraw.
New York City Storm Surges: Climatology and An Analysis of the Wind and Cyclone Evolution Dr. Brian A. Colle, Katherine Rojowsky, and F. Bounaiuto School.

New York City Storm Surges: Climatology and An Analysis of the Wind and Cyclone Evolution Dr. Brian A. Colle, Katherine Rojowsky, and F. Bounaiuto School.
How unique was Hurricane Sandy? A comparison of the inundation deposits and surge heights from Hurricane Sandy and the 1821 hurricane Christine Brandon.

How unique was Hurricane Sandy? A comparison of the inundation deposits and surge heights from Hurricane Sandy and the 1821 hurricane Christine Brandon.
Impact of Hurricanes on Nutrient Transport from Catchment to Coast: An Integrated Case Study of Mobile Bay and its Watershed Northern Gulf Coastal Hazards.

Impact of Hurricanes on Nutrient Transport from Catchment to Coast: An Integrated Case Study of Mobile Bay and its Watershed Northern Gulf Coastal Hazards.
Open session on Operational Oceanography -OS4.1/CL4.11 EGU2011-7488 Use of ensemble forecast meteorological fields to force a storm surge model Marco Bajo,

Open session on Operational Oceanography -OS4.1/CL4.11 EGU Use of ensemble forecast meteorological fields to force a storm surge model Marco Bajo,
SESSION: RESILIENT INFRASTRUCTURE Stronger and More Resilient Infrastructure to Accommodate the Effects of Sea Level Rise Michael V. Tumulty, P.E., Vice.

SESSION: RESILIENT INFRASTRUCTURE Stronger and More Resilient Infrastructure to Accommodate the Effects of Sea Level Rise Michael V. Tumulty, P.E., Vice.
WORKING GROUP 1 MODELING OF WIND WAVES AND SURGE EVENTS IN THE CASPIAN, BLACK, AZOV AND BALTIC SEAS.

WORKING GROUP 1 MODELING OF WIND WAVES AND SURGE EVENTS IN THE CASPIAN, BLACK, AZOV AND BALTIC SEAS.
An Investigation of Cool Season Extratropical Cyclone Forecast Errors Within Operational Models Brian A. Colle 1 and Michael Charles 1,2 1 School of Marine.

An Investigation of Cool Season Extratropical Cyclone Forecast Errors Within Operational Models Brian A. Colle 1 and Michael Charles 1,2 1 School of Marine.
Application of Numerical Model Verification and Ensemble Techniques to Improve Operational Weather Forecasting. Northeast Regional Operational Workshop.

Application of Numerical Model Verification and Ensemble Techniques to Improve Operational Weather Forecasting. Northeast Regional Operational Workshop.
Validation of Storm Surge Models for the New York Bight and Long Island Regions and the Impact of Ensembles Tom Di Liberto Dr. Brian A. Colle Stony Brook.

Validation of Storm Surge Models for the New York Bight and Long Island Regions and the Impact of Ensembles Tom Di Liberto Dr. Brian A. Colle Stony Brook.
The Collaborative Effort Between Stony Brook University and the National Weather Service, Part 1 - Previous Results, Current Status and Future Plans 

The Collaborative Effort Between Stony Brook University and the National Weather Service, Part 1 - Previous Results, Current Status and Future Plans 
United States Coast Guard 1985 Evaluation of a Multi-Model Storm Surge Ensemble for the New York Metropolitan Region Brian A. Colle Tom Di Liberto Stony.

United States Coast Guard 1985 Evaluation of a Multi-Model Storm Surge Ensemble for the New York Metropolitan Region Brian A. Colle Tom Di Liberto Stony.
CSTAR Update: New Tools for More Efficient Use of Ensembles in Operations Brian A. Colle, Minghua Zheng, and Edmund K.M. Chang, School of Marine and Atmospheric.

CSTAR Update: New Tools for More Efficient Use of Ensembles in Operations Brian A. Colle, Minghua Zheng, and Edmund K.M. Chang, School of Marine and Atmospheric.
Model Simulation Studies of Hurricane Isabel in Chesapeake Bay Jian Shen Virginia Institute of Marine Sciences College of William and Mary.

Model Simulation Studies of Hurricane Isabel in Chesapeake Bay Jian Shen Virginia Institute of Marine Sciences College of William and Mary.
Agenda Do now Climate change and sea levels discussion Sea level activity Lesson Objectives SWBAT describe causes of rising sea levels. SWBAT describe.

Agenda Do now Climate change and sea levels discussion Sea level activity Lesson Objectives SWBAT describe causes of rising sea levels. SWBAT describe.
Center for Satellite Applications and Research (STAR) Review 09 – 11 March 2010 Satellite Observations of Seasonal Sediment Plume in the Central East China.

Center for Satellite Applications and Research (STAR) Review 09 – 11 March 2010 Satellite Observations of Seasonal Sediment Plume in the Central East China.
Surge Height (NAWIPS) 5.4 feet Impact (Inundation) 4 feet TWL – (MHHW – MSL) 8 – (4-0)=4.

Surge Height (NAWIPS) 5.4 feet Impact (Inundation) 4 feet TWL – (MHHW – MSL) 8 – (4-0)=4.

Similar presentations

Ads by Google