In a Building Team Awards competition that was heavy with high-quality healthcare projects, including four eventual winners, the Naval Hospital at Camp Pendleton (NHCP) stood out, according to the awards judges. The jury commended the Building Team for executing an extremely large and complex program under an aggressive schedule and experimental design-build contracting method—all while beating the initial budget by nearly 19%.
“On top of that, this project has a strong environmental story,” said Building Team Awards judge Susan Heinking, AIA, NCARB, LEED AP EB O+M, Sustainability Leader and Vice President with VOA. On track for LEED Gold, the facility outperforms baseline ASHRAE energy standards by 30%, thanks to its daylight-rich interior scheme, 36,000-sf vegetated roof, and 170 kW photovoltaic solar panel array for domestic hot water.
The massive, one-million-sf campus was completed in just 34 months, a full six months ahead of the original schedule and two years faster than any previous NAVFAC hospital project. The Building Team also came in more than $100 million under budget, with less than 2% contractor-requested change orders, zero lost-time incidents, and zero rework needed due to government noncompliance.
The scope of the project entailed building a 500,000-sf hospital with 60 inpatient beds for medical surgery, labor/delivery, post-partum, and intensive care, as well as 96 procedure rooms, 205 exam rooms, and 10 operating rooms; a central utility plant with 3,100 tons of cooling and redundant utility systems; a 1,500-space parking facility; and 1,000 surface parking spaces.
PLATINUM AWARD
Project summary
Naval Hospital at Camp Pendleton
Oceanside, Calif.BUILDING TEAM
Submitting firms: Clark Construction Group, McCarthy Building Cos. (joint venture design-build contractor)
Owner: NAVFAC Southwest
Design architect: HDR Architecture
Architect of record: HKS
Interior architect: Young and Co.
Structural engineer: KPFF Consulting Engineers
Mechanical engineer: TMAD Taylor and Gaines
Electrical engineer: exp.
Civil engineer: BergerABAMGENERAL INFORMATION
Size: 1,000,000 gsf
Construction cost: $447.3 million
Construction: September 2010 to September 2013
Delivery method: Design-build
Funded through the American Recovery and Reinvestment Act of 2009, the project had to be completed in record time (by Navy standards) in order to meet the ARRA requirements. It meant the Building Team would have to compress the project schedule from the typical five- to seven-year time frame to just 40 months—a goal that was ultimately bested by six months.
To expedite the schedule and start construction early, the project team developed a phased-design approach—a first for NAVFAC. The team worked alongside the client to identify critical path activities available for early starts, and eventually divided the project into six design packages.
This approach slashed several weeks off the project schedule. For instance, by sequencing the structural package as one of the first to be reviewed and approved, the hospital’s foundation work kicked off two weeks early. And siphoning a portion of the civil design into an early package facilitated the relocation of two high-voltage transmission lines, which enabled the team to clear the way for an early start of mass grading.
BREAKTHROUGH TURNKEY PROJECT DELIVERY
In a first for the federal government, the design-build team, under a turnkey contracting method, was responsible for not only designing and building the campus, but planning, procuring, and installing all medical equipment, furniture, and artwork, as well as training the hospital staff on the equipment. From the MRI units and blood analyzers to the patient beds and operating room integration, the Building Team was responsible for all aspects of delivery: design, planning, equipment selection, procurement, installation, training, and warranties.
Under the contract, the design-build team—led by Clark Construction Group and McCarthy Building Cos., with HDR Architecture and HKS on the design side—worked hand in hand with NAVFAC to evaluate, select, and coordinate more than 20,000 pieces of equipment for the complex. Every piece of equipment was scrutinized to determine the greatest value to the client, based on life cycle cost, maintenance contracts, model options, and competitive offerings.
The massive campus was completed in just 34 months, a full six months ahead of the original schedule and two years faster than any previous NAVFAC hospital project. A pocket courtyard adds to the healing environment. Photo: LaCasse Photography
Once the design was finalized, the team worked closely with NAVFAC to understand its funding schedule, and with the equipment manufacturers to develop a procurement schedule. The goal was to delay final equipment selections to ensure the latest technology, without impacting construction or requiring rework. After the client settled on specific equipment, Clark/McCarthy secured a purchase order from the manufacturer, coordinated lead times with the construction schedule, and incorporated just-in-time delivery to the site, which eliminated the need for temporary warehousing.
5D BIM MODEL PAYS OFF
From the project’s inception, the team worked entirely in three dimensions to design and coordinate the hospital, including its civil infrastructure, building superstructure, envelope, building systems, and interior spaces.
During design development, the model helped the team accurately determine the budget and constructability. The model was linked to the project’s cost-loaded CPM schedule to produce a 5D tool (3D geometry, time, cost) that automatically adjusted when changes were made.
Using the model, the team prefabricated numerous materials and components, including mechanical systems, window and exterior framing assemblies, ductwork, piping, casework, pneumatic tube system, and electrical distribution systems.
Navy Medicine West personnel were integrated into the project team to provide valuable counsel on how to design and build the most functional spaces for hospital staff. The team used BIM to produce virtual mockups, in conjunction with physical mockups, for a half-dozen major medical spaces. The digital layouts helped coordinate all in-wall and overhead MEP and mechanical spaces, doors, and stud locations, as well as provide tools for early validation by the clinical staff. Photo: LaCasse Photography
From the successful implementation of an experimental turnkey contract method to the use of 5D BIM for advanced collaboration, the Naval Hospital at Camp Pendleton will serve as model for federal healthcare facilities delivery for years to come.
Related Stories
Urban Planning | Apr 12, 2023
Watch: Trends in urban design for 2023, with James Corner Field Operations
Isabel Castilla, a Principal Designer with the landscape architecture firm James Corner Field Operations, discusses recent changes in clients' priorities about urban design, with a focus on her firm's recent projects.
3D Printing | Apr 11, 2023
University of Michigan’s DART Laboratory unveils Shell Wall—a concrete wall that’s lightweight and freeform 3D printed
The University of Michigan’s DART Laboratory has unveiled a new product called Shell Wall—which the organization describes as the first lightweight, freeform 3D printed and structurally reinforced concrete wall. The innovative product leverages DART Laboratory’s research and development on the use of 3D-printing technology to build structures that require less concrete.
Market Data | Apr 11, 2023
Construction crane count reaches all-time high in Q1 2023
Toronto, Seattle, Los Angeles, and Denver top the list of U.S/Canadian cities with the greatest number of fixed cranes on construction sites, according to Rider Levett Bucknall's RLB Crane Index for North America for Q1 2023.
University Buildings | Apr 11, 2023
Supersizing higher education: Tracking the rise of mega buildings on university campuses
Mega buildings on higher education campuses aren’t unusual. But what has been different lately is the sheer number of supersized projects that have been in the works over the last 12–15 months.
Architects | Apr 10, 2023
Bill Hellmuth, FAIA, Chairman and CEO of HOK, dies at 69
William (Bill) Hellmuth, FAIA, the Chairman and CEO of HOK, passed away on April 6, 2023, after a long illness. Hellmuth designed dozens of award-winning buildings across the globe, including the Abu Dhabi National Oil Company Headquarters and the U.S. Embassy in Nairobi.
Contractors | Apr 10, 2023
What makes prefabrication work? Factors every construction project should consider
There are many factors requiring careful consideration when determining whether a project is a good fit for prefabrication. JE Dunn’s Brian Burkett breaks down the most important considerations.
Mixed-Use | Apr 7, 2023
New Nashville mixed-use high-rise features curved, stepped massing and wellness focus
Construction recently started on 5 City Blvd, a new 15-story office and mixed-use building in Nashville, Tenn. Located on a uniquely shaped site, the 730,000-sf structure features curved, stepped massing and amenities with a focus on wellness.
Smart Buildings | Apr 7, 2023
Carnegie Mellon University's research on advanced building sensors provokes heated controversy
A research project to test next-generation building sensors at Carnegie Mellon University provoked intense debate over the privacy implications of widespread deployment of the devices in a new 90,000-sf building. The light-switch-size devices, capable of measuring 12 types of data including motion and sound, were mounted in more than 300 locations throughout the building.
Affordable Housing | Apr 7, 2023
Florida’s affordable housing law expected to fuel multifamily residential projects
Florida Gov. Ron DeSantis recently signed into law affordable housing legislation that includes $711 million for housing programs and tax breaks for developers. The new law will supersede local governments’ zoning, density, and height requirements.
Energy Efficiency | Apr 7, 2023
Department of Energy makes $1 billion available for states, local governments to upgrade building codes
The U.S. Department of Energy is offering funding to help state and local governments upgrade their building codes to boost energy efficiency. The funding will support improved building codes that reduce carbon emissions and improve energy efficiency, according to DOE.
