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When most people think of engineering, they picture bridges, buildings, and dams rising above the landscape. Yet the performance and longevity of these structures depend just as much on the subsurface conditions beneath them. Geotechnical engineering is the discipline dedicated to investigating, analyzing, and characterizing soil, rock, landscape, and groundwater conditions, and applying that data to the design and construction of safe, resilient, and sustainable infrastructure and restoration projects.
At Princeton Hydro, our geotechnical and soils engineers design and execute customized, cost-effective investigations that provide the parameters needed for successful design. Because geotechnical services touch every stage of a project, our integrated approach of investigation, including soils laboratory testing, analysis, and design, all done in-house, ensures streamlined communication, efficiency, and technical excellence.
This blog offers a closer look at what geotechnical engineering entails, the specialized capabilities Princeton Hydro provides, and real-world examples of how our work supports resilient, sustainable design.
Geotechnical Investigations: Our engineers can perform subsurface investigation, identification, and assessment of accumulated sediment, subsurface soils, and rock, as well as slope stability and stabilization modeling. Our work ranges from foundation type and bearing capacity assessments to mitigation strategies for unsuitable materials. We also regularly conduct forensic geotechnical investigations, which focus on investigating soil-interaction-related failures of engineered infrastructure.
Laboratory Testing: We operate an American Association of State Highway and Transportation Officials (AASHTO) Accredited laboratory in Sicklerville, NJ. This allows us to complete 100% of geotechnical investigation planning and oversight, laboratory testing, analysis, design, and reporting in-house. Our geotechnical laboratory performs a full suite of soils and materials testing, including grain size analysis, plasticity index, organic content, moisture content, compaction characteristics of soil (Standard and Modified Proctor), California bearing ratio (CBR), one dimensional consolidation, and flexible and rigid wall permeability testing under constant or falling head conditions. With this capability, we can rapidly deliver high-quality data to inform project design and construction. Our laboratory is also a U.S. Army Corps of Engineers (USACE) Validated Laboratory. Click here to view Princeton Hydro’s complete accreditation listing and certificate. And, click here to learn more about the USACE Materials Testing Laboratories and Validation.
Field & Construction Services: Our engineers are experienced in construction requirements, design, and methodology for various structures, as well as field inspections and special testing. We have a Certified Construction Specifier (CCS) on staff and ACI-certified concrete field-testing technicians. Our team performs compaction testing of soil and asphalt using a nuclear density gauge, reinforcing steel inspections, and 2006 International Building Code (IBC) special inspections. We help determine foundation type, site improvements, and optimal construction techniques.
Dredging & Sediment Investigations: Over our 25-year history, we’ve managed more than 100 dredging projects across freshwater and estuarine systems. We specialize in beneficial reuse of dredged material for ecological restoration, including wetland creation, thin-layer placement, and living shorelines. Our team provides sediment characterization, slope stability modeling, and contaminant analysis in complex, developed watersheds.
To bring this work to life, we’ve chosen a few Princeton Hydro projects that showcase where our geotechnical expertise helped solve unique challenges:
At Spring Creek Park North in Jamaica Bay, New York, decades of urbanization and dredged material placement had degraded more than 40 acres of tidal marsh and uplands. To address this, Princeton Hydro provided subsurface investigations and design services for a large-scale ecosystem restoration led by the USACE New York District, in partnership with NYC Parks.
A key design assumption was the reuse of excavated material: soils removed from wetland areas were repurposed to construct upland hills, supporting both ecological function and cost-effective implementation. Our work included geotechnical borings, slope stability analyses, and hydraulic modeling, as well as the collection of topographic and bathymetric survey data, wetland delineations, vegetation assessments, and hydrodynamic measurements. This data informed the development of slope stability and hydraulic models and guided the restoration design.
The project advanced through a structured engineering design process — with 30%, 60%, 90%, and 100% design submissions — along with preparation of technical specifications, permit applications, and a detailed construction cost estimate. When complete, the project will restore more than 43 acres of marsh and upland habitat, improving water quality, enhancing biodiversity, and strengthening climate resilience in one of New York City’s most ecologically significant coastal systems.
Princeton Hydro was contracted by USACE Philadelphia District to perform offshore subsurface geotechnical investigations in support of reconstructing the Indian River Inlet jetty at Delaware Seashore State Park. Working under challenging marine conditions, our team successfully advanced deep geotechnical borings (to depths of 100 feet) from a lift boat platform, collected soil samples, performed laboratory testing including triaxial strength, consolidation, and direct shear tests; and delivered detailed soil data. Despite difficult sea states, we maintained close communication with USACE to ensure safety and project continuity.
The resulting data provided USACE with critical insight into subsurface conditions, helping inform design alternatives for the new jetty structure.
At the Killcohook Confined Disposal Facility (CDF), Princeton Hydro carried out a large-scale subsurface investigation to support USACE Philadelphia District’s plans for raising the site’s perimeter dikes. The project site, formerly a National Wildlife Refuge, is located in Pennsville, New Jersey, on the eastern bank of the Delaware River, to the north of Fort Mott State Park and adjacent to the Supawna Meadows Wildlife Refuge. Each cell of the CDF receives dredge material from the Delaware River. The subsurface explorations performed by Princeton Hydro were conducted along the existing dike comprising the border of Cell 1 of the CDF. Cell 1 consists of an area of approximately 710 acres with the entire CDF covering 1,200 acres.
For this exploration project, Princeton Hydro was tasked with the performance of thirty-one (31) geotechnical borings as well as sixty-five (65) cone penetrometer tests with porewater measurements (CPTu) soundings. Princeton Hydro also provided site safety oversight in accordance with USACE standards. Soil samples were logged and collected by Princeton Hydro and tested at their Sicklerville, New Jersey geotechnical laboratory, which is accredited under the AASHTO Accreditation Program and validated by USACE for soils testing.
The data collected is now being used by USACE to design the upgraded dike system, ensuring safe, resilient operation of the facility for future dredged material management.
At the 545-acre Pedricktown North Confined Disposal Facility in Oldmans Township, New Jersey, located on the Delaware River west of Route 130 between Porcupine Road and Pennsgrove-Pedricktown Road, Princeton Hydro conducted a comprehensive subsurface investigation in support of a dike raising project led by the USACE Philadelphia District.
As part of this field exploration, our team performed eight geotechnical borings, thirty-eight cone penetrometer tests with porewater measurement (CPTu) soundings, and collected five grab samples. These efforts provided critical soil strength and settlement data to inform USACE’s design of the upgraded dike system.
In addition to managing subcontractors and ensuring compliance with USACE safety protocols, Princeton Hydro oversaw the field program, coordinated directly with the Project Manager, and delivered the final geotechnical report. This investigation is supplying USACE with essential geotechnical data to guide the design and construction of the improved dike infrastructure.
This blog only scratches the surface of what geotechnical engineering entails. To dive deeper, we invite you to read “A Day in the Life: Princeton Hydro’s Geotechnical Laboratory,” where you’ll step into our laboratory and shadow Marissa Ciocco, P.E. as she turns soil samples into the data that drives resilient design.
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