Case Study: New Cooling Tower Improves Efficiency at Smithsonian Facility
March 11, 2022
Faced with challenging specifications for increasing cooling tower capacity and the need for reduced maintenance cost and inspection accessibility, Baltimore Aircoil Company (BAC) developed an innovative solution for the Smithsonian National Air and Space Museum’s Steven F. Udvar-Hazy Center.
The Smithsonian National Air and Space Museum’s Steven F. Udvar-Hazy Center is home to several aircraft hangars with an exhibited collection of thousands of aviation and space artifacts, as well as a theater, observation tower and restoration facilities. With extensive facilities and an HVAC system that could not keep pace with demands, it became clear to the museum and to the consulting engineers at AECOM, who managed the project, that a new HVAC system was desperately needed.
The museum was supported by cooling towers that were old and lacked adequate capacity to serve the building’s increasing cooling load. Site conditions did not allow for a larger cooling tower footprint to meet the increased load. To deliver enough chilled water at peak efficiency and to fix the original hydronic design for the towers, the facility managers were faced with elevating the towers by six feet. While solving the HVAC system performance challenge, this created a service dilemma: how to safely and efficiently perform routine inspection and maintenance on cooling towers that were 25 feet above ground.
Working with the Smithsonian Institution and AECOM, the engineers at Baltimore Aircoil Company and The Morin Company, the local BAC representative, presented an innovative solution to dramatically improve the reliability of the cooling tower while reducing the need for regular service and maintenance of the fan-drive system.
“Other Smithsonian buildings have incorporated BAC’s towers, and we at AECOM have also worked with BAC in the past,” says Dilip Parikh, senior project manager, AECOM. “We had seen positive results in these prior projects and the customer support from BAC is superb, so we elected to work with them again.”
The result was a recommendation to replace the existing cooling towers with new cooling tower technology from BAC, which would improve heat rejection capacity and chiller functions. The solution enhanced the capacity of the cooling tower within the existing tower footprint, and most importantly, reduce maintenance requirements.
In order to ensure safety of maintenance professionals during the life of the cooling tower and a reduction in overall maintenance costs, Parikh and the BAC team decided to replace the traditional fan power transmission with an innovative, simplified direct-drive fan system.
“I knew that direct-drive would likely be the right path for us to take, since we wanted to avoid unnecessary gears or belts that would need to be maintained and replaced,” Parikh says. “BAC then brought their ENDURADRIVE Fan System to my attention, and I immediately recognized that it was a perfect fit.”
Direct-drive fan systems are becoming accepted as the gold standard for high reliability and low maintenance throughout the markets BAC serves. BAC has led the evaporative cooling industry for over a decade in applying innovative technologies to factory assembled evaporative heat transfer products.
“With over 500 direct-drive motors installed in the U.S., including in some of the most demanding climates and applications, and with over 3.5 million operating hours, we knew that the ENDURADRIVE Fan System would provide AECOM and the Smithsonian Institution the peace of mind they needed. Also, by eliminating moving parts, gearbox oil changes, and other routine inspections, fan-drive maintenance costs are cut by 90 percent,” said Stephen Kline, Applications Manager at BAC.
The BAC Series 3000 cooling tower with ENDURADRIVE Fan System was installed at the National Air and Space Museum’s Udvar-Hazy Center at the end of 2018 and has been in continuous operation since then. As expected, BAC’s cooling tower solution has reduced maintenance and increased efficiency for the Smithsonian Institution, and it continues to meet the performance needs of the center.
“BAC sized the new cooling tower with increased capacity while staying within the pre-existing footprint. Since its installation, it has helped enable the HVAC system to maintain precise temperature and humidity, a critical concern in the museum building and research facility,” Parikh says. “Most importantly, the need to climb the tower is rare, so the facilities personnel can remain safe even as the performance of the tower has improved.”
BAC’s innovative solution for the National Air and Space Museum, Steven F. Udvar-Hazy Center met the project’s challenging specifications for increasing cooling tower capacity and has led to dramatically reduced maintenance costs and greater inspection accessibility. Visitors and staff alike will enjoy the benefits of this enhanced cooling tower system for years to come.
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