Arts + Entertainment
Live Performances
Museums + Art Displays
Pop-Ups
Signage
Studios + Sound Stages
TV + Film Production
Theaters
Theme Parks + Playplaces
discover
Education
Colleges + Universities
Private + Specialty Schools
Public K-12
discover
Energy
Solar Energy
Transmission Infrastructure
Wind Energy
Oil + Gas
discover
Government
Municipal
State
Federal
discover
Healthcare
Senior Care
Hospitals
Outpatient Facilities
discover
Industrial
Heavy Industrial
Warehouse + Distribution Centers
Industrial Ports + Terminals
discover
Ports + Coastal
Berths, Piers + Wharves
Bulkheads
Esplanades
Ferry Landings, Ship Terminals
Floating Structures
Ports + Terminals
Marinas + Breakwaters
Transfer Stations
discover
Public Infrastructure
Bikeways + Trails
Garage + Parking Facilities
Park + Recreational Spaces
Streetscapes
Utility Infrastructure
Water + Wastewater
discover
Real Estate Development
Commercial
Community Facilities
Mixed-Use
Multifamily Residential
discover
Transportation
Airports
Bridges
Ports + Terminals
Rail Transportation
Roads + Highways
Ropeway + Linear Infrastructure
discover
Floating Harbor Wetland
Multimodal Processing Plant
416 + 420 Kent Dynamic Highrise
Wittpenn Bridge
Tiffany Crane
LaGuardia Airport Terminal B
NYC Ferry
Orlando Airport LED Displays
A leading full-service engineering firm renowned for our trusted, high quality, and innovative approach to solving complex challenges.
Coastal Engineering

Coastal Modeling

Coastal modeling is an essential tool for understanding the complex dynamics of coastal environments. By simulating various coastal processes, we can predict and mitigate potential risks, ensuring the safety and sustainability of coastal developments. Our advanced modeling capabilities include hydraulic, wave, sediment transport, and flooding models, among others. These models provide critical insights that inform the design and implementation of effective coastal protection and management strategies.

Coastal Hydraulic Models

We utilize sophisticated hydraulic models to analyze water flow and its impact on coastal structures. These models help in designing structures that can withstand the dynamic coastal environment.

Coastal Wave Models

Our wave modeling expertise helps in understanding and predicting wave behavior to inform design and mitigation strategies. Accurate wave models are essential for designing resilient coastal defenses and for the planning of marine operations.

Sediment Transport Models

We assess sediment movement and its effects on coastal regions to support sustainable management. Sediment transport models are vital for predicting erosion and deposition patterns, which are critical for maintaining healthy shorelines.

Flooding Models

Our flooding models provide critical insights into flood risks and inform the design of effective flood protection measures. These models help communities prepare for and mitigate the impacts of coastal flooding.

Mooring and Berthing Models

We develop models for optimizing mooring and berthing operations, ensuring safety and efficiency. These models are essential for the design of ports and marinas, ensuring safe and efficient docking of vessels.
Nationwide

Coastal Modeling
Experience + News

Acoustic Doppler Current Profiler (ADCP) in Use at NYC Ferry Homeport II Site

ADCP Data Collection For Coastal Modeling, New York

Our marine / coastal engineers and in-house dive team worked together to deploy an Acoustic Doppler Current Profiler (ADCP) to measure the site wind and wake driven waves, and then using coastal modeling, optimized the small craft harbor configuration.

Development Flood Zone Assessment, New York

Created a coastal model to assess the flood zone of a 22-acre property slated for residential development. The property was listed in FEMA Zone VE, restrictive for development, according to the effective FIRM panel. Through this modeling, McLaren identified inaccuracies in the FEMA mapping, necessitating a Letter of Map Revision (LOMR).

SUNY Maritime College Pier and Waterfront Rehabilitation

SUNY Maritime College Pier Load Rating, Extension, Berthing + Mooring, New York

To deliver this project in an expedited fashion our team began by assessing the existing structure, developing the mooring and berthing analysis models, and conceptualizing design options. McLaren developed a model of the pier that incorporated the structural deficiencies documented during the site investigation phase.

Coastal Engineering Analysis and Modeling, Virginia

McLaren completed the preliminary design and alternatives study phases that included coastal engineering analysis and modeling.

Coastal Modeling and Breakwater Design Using STWAVE, New Jersey

Utilizing typical tidal conditions, extreme storm-event water levels, wind speeds, wave heights, currents, and predicted sea level rise, McLaren prepared a coastal numerical model (STWAVE by the USACE) to determine the site-specific wave heights for various return period events (e.g. 10, 50 and 100-year recurrence interval storms). The data was used to determine the breakwater height and resulting wave forces that the breakwater must resist.

Sediment Transport Model, Pennsylvania

Analyzed how the structures proposed would impact sediment overtime.