2012 Building Team Awards
Platinum Award
Six years ago, and worlds away in terms of economic conditions, Rush University Medical Center unveiled ambitious plans for a 10-year campus redevelopment project on the Near West Side of Chicago. At a cost of $654 million, the cornerstone of the transformation was an 840,000-sf, 14-story butterfly-shaped hospital building, called the Tower, that included a technologically advanced emergency room prepared to handle any type of pandemic or chemical, biological, or radiological disaster that might strike Chicago.
In July 2008, steel erection was nearly 30% complete when the global financial crisis hit. Rush officials were concerned they might not be able to obtain the necessary funding to complete the project.
The Building Team, led by the Power/Jacobs Joint Venture—an affiliation of Power Construction Co., Schaumburg, Ill., and Jacobs Engineering Group, Pasadena, Calif. (PM/CM), and architect Perkins+Will, Chicago—worked to develop a financial plan that would allow the project to keep moving. A multi-prime contracting strategy enabled the Building Team to award contracts to multiple prime contractors based on when the work was ready to be bid and start. More to the point, the plan was flexible enough to slow down or stop construction at any time without committing to the balance of the contracts.
As construction proceeded during the economic meltdown, the Building Team was able to help Rush remain on course financially while pushing the limits of value-added engineering and construction.
In late 2011, Rush and the Building Team unveiled a LEED-NC Gold tower that was completed on time and within budget, thanks, in part, to the multi-prime contracting strategy.
In singling out Rush University Medical Center by awarding a Platinum designation, the judges for Building Design+Construction’s 2012 Building Team Awards recognized the Rush Building Team for overcoming the unforeseen financial constraints, developing a structural redesign of the tower that saved Rush $40 million, and completing one of the most innovative emergency response centers in the U.S.
“For a job of that size to get done during the recession is pretty impressive,” says Building Team Award Judge Jeremy Oremland, a financial analyst with Magellan Development Group LLC, Chicago.
COLLABORATION ON DESIGN CONCEPT, STRUCTURAL COMPLICATIONS
Perkins+Will worked closely with hospital clinicians during the design phase to create a new hospital building that would embrace patient comfort, safety, efficiency, and quality of care—ultimately, a facility that would house 304 acute care and critical care beds, 72 private neonatal intensive care rooms, 28 operating rooms, 14 procedure rooms, and 10 labor, delivery, and recovery rooms.
“Rush’s Office of Transformation organized task forces chaired by selected leaders from the client side, who met over the course of several months with the Building Team to discuss specific aspects and departments of the project,” says Bridget Lesniak, AIA, a principal with Perkins+Will.
Task forces for each department met with the Building Team to plan layouts that accentuated the hospital’s best operational practices while discouraging inefficient ones.
For example, the Hospital Building Standards task force reviewed architectural and MEP systems for all typical rooms, which provided vital information regarding operations, product selection, liability, infection control, and clinical concerns. “Especially standardization, which was the main driver for this project,” says Lesniak.
The innovations developed between the Office of Transformation and the Building Team included:
- The butterfly shape, which gives nurses a clear sightline to patient rooms and puts them closer to patients.
- Operating-room quality air throughout all patient care areas, and even higher quality air circulation in surgical suites.
- Single-bed rooms designed with separate zones for the patient, the patient’s family, and staff. Patient rooms have a uniform design, so physicians and nurses will find the same equipment in the same place to ensure seconds are not lost in an emergency.
GETTING THE TOWER TO SIT RIGHT
Meanwhile, the structural design for the 14-story Tower faced complications. Initial designs had its base connected directly to the basement of Rush’s existing hospital building, which extended 30 feet under the new facility.
“The lower level of the existing building extended a significant distance below grade in the direction of the new addition,” says Lesniak. “Attempting to put in foundations for a 14-story building in this location would have been very expensive and extremely time consuming.”
The Building Team assembled for a constructability and value engineering session. The solution: pull the two buildings apart and redesign the new hospital building.
Project summary
PLATINUM AWARD
Rush University Medical Center Transformation Program – Tower (Phase II), Chicago, Ill.Building Team
Submitting firm: Power/Jacobs Joint Venture
Owner/developer: Rush University Medical Center
Architect: Perkins+Will
Structural engineer: Thornton Tomasetti
MEP engineer: Environmental Systems Design
General contractor/Construction manager: Power/Jacobs Joint Venture, Rush UniversityGeneral Information
Size: 840,000 sf
Construction cost: $654 million
Construction period: July 2008 to July 2011
Delivery method: PM/CM agency multi-prime
Separating the new and existing hospital structures actually simplified the foundations, eliminated supercolumns, and allowed a rectilinear column grid that eliminated the need for a transfer truss system. A multistory bridge was built to connect the Tower back to the existing building, a structural redesign that saved more than $40 million and resulted in a more finely engineered building with no reduction in scope.
The newly created space between the two buildings allowed for the inclusion of the three-story, 10,000-sf Edward A. Brennan Entry Pavilion, made possible through $16 million in private donations. It features a four-story terrarium that is open to the elements, circular skylights that provide natural lighting, seating areas, and a centrally located reception area.
Even though it was a late addition to the Rush transformation program—the Tower’s steel and concrete structure was complete and 50% enclosed—the Brennan Entry Pavilion was finished three months ahead of schedule and in time for the grand opening.
Other cost-saving efforts by the Building Team included:
- The application of simulation modeling to review and validate the operational space program, which led to improvements in the utilization of numerous spaces—saving $7.8 million.
- A strategy for mitigating floor moisture to avoid the application of accelerants—saving $5 million.
- Reengineering the support steel for patient lifts and booms and lights—saving $1.05 million.
- Negotiating consultant and contractor proposals—saving $26 million.
MILITARY APPROACH TO THE EMERGENCY DEPARTMENT
Unique to the Rush new facilities is the first-floor Emergency Department, which houses the Robert R. McCormick Foundation Center for Advanced Emergency Response.
“This is the nation’s first facility designed to provide care for patients involved in chemical, biological, and radiological disasters,” says Dr. Dino Rumoro, Rush’s chair of emergency medicine. “We have to be ready for any type of disaster that can hit the city of Chicago.”
Modeled after a military emergency command center, the room measures 40,000 sf and includes 60 beds in three pods of 20 rooms each. Each patient room is fitted with a double set of gas and electrical outlets. In the event of a mass casualty situation, two patients can be placed in each room.
In case extra capacity is needed, gas and electrical outlets are hidden behind panels on columns in the adjacent Edward A. Brennan Entry Pavilion.
“Many new emergency departments are building in disaster response features, but none to the capacity that we have done by incorporating large-scale decontamination, respiratory infectious illness, and surge capacity,” says Dr. Rumoro.
Traditional emergency rooms have decontamination areas and showers to serve up to six patients. Rush’s emergency response center can serve and decontaminate several hundred patients in one hour. The ambulance bay can also be closed to vehicles, and decontamination showers can be set up to wash down large numbers of patients simultaneously. Contaminated water is collected in a 10,000-gallon tank rather than directly discharged into the city sewer system.
“The hope is Rush developed a model for future emergency department design and Centers for Advanced Emergency Response will be required in the future for hospitals in large population centers,” says Dr. Rumoro.
At a ceremony for Rush’s new Tower in December 2011, Dr. Larry Goodman, CEO of Rush, said, “This was a dedicated team effort by our board, staff, and management to create a 10-year plan to address our needs while improving clinical care.”
Building Team Award Judge Peter Rumpf, integrated construction manager for Mortenson Construction, Elk Grove Village, Ill., echoed Goodman’s comments: “It was a very complex job that took a lot of collaboration and communication between the owner and the Building Team in order to successfully complete the project.” BD+C
--
Click here to view exclusive video interviews of the 2012 Building Team Awards judges explaining their selections.
Related Stories
| Nov 8, 2013
Can Big Data help building owners slash op-ex budgets?
Real estate services giant Jones Lang LaSalle set out to answer these questions when it partnered with Pacific Controls to develop IntelliCommand, a 24/7 real-time remote monitoring and control service for its commercial real estate owner clients.
| Nov 8, 2013
S+T buildings embrace 'no excuses' approach to green labs
Some science-design experts once believed high levels of sustainability would be possible only for low-intensity labs in temperate zones. But recent projects prove otherwise.
| Nov 8, 2013
Net-zero bellwether demonstrates extreme green, multifamily style
The 10-unit zHome in Issaquah Highlands, Wash., is the nation’s first net-zero multifamily project, as certified this year by the International Living Future Institute.
| Nov 8, 2013
Walkable solar pavement debuts at George Washington University
George Washington University worked with supplier Onyx Solar to design and install 100 sf of walkable solar pavement at its Virginia Science and Technology Campus in Ashburn, Va.
| Nov 6, 2013
PECI tests New Buildings Institute’s plug load energy use metrics at HQ
Earlier this year, PECI used the NBI metrics to assess plug load energy use at PECI headquarters in downtown Portland, Ore. The study, which informed an energy-saving campaign, resulted in an 18 percent kWh reduction of PECI’s plug load.
| Nov 5, 2013
Net-zero movement gaining traction in U.S. schools market
As more net-zero energy schools come online, school officials are asking: Is NZE a more logical approach for school districts than holistic green buildings?
| Nov 5, 2013
New IECC provision tightens historic building exemption
The International Energy Conservation Code has been revised to eliminate what has been seen as a blanket exemption for historic buildings.
| Nov 5, 2013
Living Building Challenge clarifies net-zero definitions and standards
The Living Building Challenge has released the Net Zero Energy Building Certification to provide clearer definitions regarding what net zero really means and how it is to be achieved.
| Nov 5, 2013
Oakland University’s Human Health Building first LEED Platinum university building in Michigan [slideshow]
Built on the former site of a parking lot and an untended natural wetland, the 160,260-sf, five-story, terra cotta-clad building features some of the industry’s most innovative, energy-efficient building systems and advanced sustainable design features.
| Nov 4, 2013
Architecture and engineering industry outlook remains positive on all major indicators
While still below pre-recession levels, all of the key indicators in the latest Quarterly Market Forecast (QMF) report from PSMJ Resources remain in positive territory.