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Learn more about Stantec’s Coastal Flood Risk Reduction & Restoration experience.
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MID BRETON SOUND
Orange County Coastal Storm Risk Management Project
Client: USACE Galveston District
Project Orange will mitigate interior flooding during surge events. The 26.7-mile system includes 15.6 miles of levees, 10.7 miles of concrete floodwalls, 13.5- to 16-foot gates, and 7 pump stations. Stantec is part of the Galveston Coastal Services Joint Venture.
Client: USACE New Orleans District
This $700M post-Katrina capstone project in the 350 miles of hurricane protection surrounding New Orleans. PCCP includes floodwalls, levees, sluice gates, and three storm drainage pump stations with a total capacity of 24,300 CFS.
Permanent Canal Closures & Pumps
Client: USACE New Orleans District
Stantec, as part of the FFEB Joint Venture, provided investigation and design upgrades to 260+ miles of the Hurricane and Storm Risk Reduction System under multiple AE contracts.
A-E Services for Hurricane & Storm Damage Risk Reduction System (HSDRRS)
Client: USACE New Orleans District
The project includes 4 pumping stations with a capacity of 5,600 CFS, floodwalls, bypass gates, and levees as part of the 100-year risk reduction system featuring an 18-mile levee system.
West Shore Lake Pontchartrain Pump Stations and Drainage Structures
Client: USACE Vicksburg District
The project, which restored current authorized flood protection levels within the New Orleans Levee District, includes 10,450 linear feet of earthen levees and construction of 2,850 linear feet of new floodwall, including vehicular and pedestrian flood gates.
Carrollton Levee Floodwall & Levee Enlargement
Stantec is recognized as an innovator in the delivery of flood risk management, coastal storm risk reduction, water resources, navigation, and ecosystem restoration projects that support coastal programs across North America. We help create safer communities and resilient environments through design partnerships on local and state levels.
On August 29, 2005 Hurricane Katrina brought 120 mile per hour winds and a 26-foot storm surge to the Louisiana coastline, cutting a swath of devastation up through Mississippi and into Tennessee.
Flooding breached over 50 levees built to protect New Orleans, submerging 80 percent of the city under water in a single day. Eighteen hundred people died; tens of thousands more were displaced. At over $81 billion in damages, it was one of the costliest natural disasters in U.S. history. The storm caused a nation to search its soul—and to respond.
The Storm
A Story of Coastal Resilience
Coastal Resilience
The response was the U.S. Army Corps of Engineers’ (USACE) $14.5 billion Hurricane and Storm Damage Risk Reduction System (HSDRRS), designed to significantly reduce the risk of flooding from a 100- year storm event in New Orleans and surrounding metropolitan area.
The HSDRRS required unprecedented field explorations and laboratory analyses. As part of the FFEB JV, Stantec provided critical geotechnical information for the stability and seepage evaluations that determined the safety of existing embankments and structures protecting the area. Within a week following the JV’s notice to proceed in January 2007, Stantec mobilized 23 drill rigs and six cone penetration testing (CPT) units, with samples tested by 80 technicians in a USACE certified laboratory. We completed 360 geological investigations over a 10-year period, resulting in 3,232 undisturbed borings totaling 257,829 feet.
Stantec Mobilizes
Part of the PCCP design process included a 1:16 model of key parts of the system to test assumptions that could not be verified by computer simulations. Our innovative plan to cost-effectively integrate computer and physical models enabled us to study our design with the required level of detail.
Model Behavior
The last major piece of the HSDRRS program was the $730 million Permanent Canal Closures and Pumps (PCCP) project, completing the storm surge barrier along the City’s northern limits at Lake Pontchartrain. Stantec led the design of three massive pump station and flood gate facilities, one of the world’s largest systems of its kind. During a major storm, the 18-foot high flood gates lower to prevent lake surge from entering the canals as water from the canals is pumped into the lake.
About 450 Stantec colleagues representing 55 offices contributed to the five-year project. “Those of us who moved to New Orleans to help deliver the project were welcomed as part of the local community,” says Stantec executive vice president, John Take. “Together, our strong feelings about the importance of this effort were clear, and our drive to deliver the best possible project was infectious.”
PCCP Breaks Ground
New Orleans
While the initial HSDRRS program was being designed and built, Hurricane Isaac struck in 2012. The storm surge flooded approximately 7,000 homes and submerged Interstate 10 west of downtown New Orleans, delaying emergency response across the region for days. Studies revealed that a major addition to the initial HSDRRS system was needed to protect more than 60,000 people in the area. The solution was the West Shore Lake Pontchartrain Hurricane and Storm Damage Risk Reduction System.
Part of that system, the $760M West Shore Lake Pontchartrain project, was funded by the Bipartisan Budget Act of 2018. Currently in design, the project features an 18-mile (29-kilometer) levee system that includes four pump stations, flood walls, levees, flood gates, environmental canals, drainage canals, safe houses, and bypass drainage gates.
Expanding the Barrier
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Texas
To make the area less vulnerable to natural disasters, sea-level rise, and land subsidence, the USACE is developing the Sabine Pass to Galveston Bay Coastal Storm Risk Management and Ecosystem Restoration program. The program’s largest project is the $1.9 billion Orange County Coastal Storm Risk Management Project.
Project Orange, as it’s called, is being delivered by the Stantec/Jacobs Galveston Coastal Services Joint Venture. The project includes 15.6 miles of new levees, 10.7 miles of new concrete floodwalls and gates, seven new pump stations to manage interior flooding during surge events, 453 acres of marsh restoration, and 560 acres of forested wetlands preserved. The project will also include navigable sector gates and drainage structures.
Project Orange
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As Louisiana and Mississippi were responding to catastrophic storms, so was Texas. From 2005 to 2017, the area from Port Arthur, Texas, 90 miles (145 kilometers) east of Houston, to the coastal city of Galveston, southwest of Houston, was slammed by storm surges ranging from six to 14 feet.
Although many of the area’s flood protection systems performed well, numerous communities were nonetheless inundated by storm surges and relentless tropical rainfall. Studies showed that about 2.26 million people live within the storm-surge inundation zone. The area also includes three of the nine largest oil refineries in the world, 40 percent of the US petrochemical industry, 25 percent of the nation’s petroleum-refining capacity, and three of the ten largest U.S. seaports.
Rita, Ike, Harvey…
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Improving resiliency for coastal communities
A sampling of Stantec’s Gulf of Mexico Coastal Storm Risk Reduction and Management Projects
Client: CPRA
To reconnect the Mississippi River to deteriorating wetlands in the Breton Sound Basin, we provided numerical modeling, including morphodynamics, sediment transport (fines and sand), and Delft3D hydrodynamics model.
Mid-Breton Sediment Diversion
Client: Bayou Lafourche Freshwater District
The new 1,500 CFS pump station has 500 CFS redundancy capability within a coastal environment. Stantec provided full design services, including the outfall structure, river intake system, pipeline, levee, and permits.
Bayou Lafourche Pumping Capacity Improvements
John montgomery
Coastal Restoration and Protection, Program Manager
Sub-Sector Leader, Urban Waterways
john menninger
Civil Engineer
Thomas (Tom) Cancienne
Coastal Storm Risk Management, Delivery Lead
Dan grandal
Federal Sector Lead, Water
Jeff Scarborough
Senior Project Manager
JEFFERY PENA
Executive Vice President, Senior Pump Station/Hydraulic Engineer
JOHN TAKE
Discipline Leader, Riverine Hydraulics
matt hoy
Discipline Leader, Coastal Engineering
Jeff Tabar
Our Experts
Stantec’s long legacy of coastal flood risk reduction and ecosystem restoration projects includes numerous built interventions, such as levees, pump stations, floodwalls, gates, and diversions. Our goal is to protect communities by reducing flood risk for our cities and vital infrastructure.
Geotechnical Engineer
Fernando del Monte
Senior Project Manager
barry bryant
Vice President, USACE Account Manager
APRIL VANCE
Senior Project Manager, Heavy Civil Infrastructure
Hilary Thibodeaux
Senior Geotechnical Engineer
jacqueline harmon
Global Practice Leader, Environmental Hydraulics
Fangbiao lin
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Civil Engineer
Federal Sector Lead, Water
Coastal Restoration and Protection, Program Manager
John montgomery
Coastal Storm Risk Management, Delivery Lead
Dan grandal
Civil Engineer
Thomas (Tom) Cancienne
Sub-Sector Leader, Urban Waterways
john menninger
Geotechnical Engineer
Fernando del Monte
Federal Sector Lead, Water
Jeff Scarborough
Senior Project Manager, Heavy Civil Infrastructure
Hilary Thibodeaux
Senior Geotechnical Engineer
jacqueline harmon
Global Practice Leader, Environmental Hydraulics
Fangbiao lin
Executive Vice President, Senior Pump Station/Hydraulic Engineer
JOHN TAKE
Vice President, USACE Account Manager
APRIL VANCE
Discipline Leader, Coastal Engineering
Jeff Tabar
Discipline Leader, Riverine Hydraulics
matt hoy
Senior Project Manager
barry bryant
Senior Project Manager
JEFFERY PENA
ORANGE COUNTY
DONALDSONVILLE
MID BRETON SOUND
NEW ORLEANS
MID BRETON SOUND