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Schermerhorn Symphony Center – Nashville, TN

HUNTAIR® Knock-down Air Handlers with FANWALL TECHNOLOGY®

  • Custom air handlers are damaged beyond repair in a May 2010 flood and a like-for-like replacement was not a feasible option.
  • Knock-down air handlers were brought into the space in individual pieces through an existing outdoor air opening 20 feet below grade.
  • Space savings from FANWALL TECHNOLOGY allowed air handlers to be reconfigured to sit on a platform 6 feet above the basement floor to help avoid a recurrence of flood damage.
  • Acoustic performance of the HUNTAIR air handlers exceeds that of the extremely quiet air handlers that were replaced.
  • Facility re-opened in time for a New Year’s Eve performance by world renowned violin virtuoso Itzhak Perlman.
  • Read our case study (PDF)

 

University of Phoenix Stadium – Phoenix, AZ

HUNTAIR® Custom Air Handlers with FANWALL TECHNOLOGY®

  • The University of Phoenix Stadium, home of the Arizona Cardinals and Super Bowl XLII, was one of the earliest installations using FANWALL TECHNOLOGY.
  • There are 20 air handlers in operation totaling 284 fans and providing 1.6 million CFM throughout the stadium; the largest air handler provides 132,000 CFM.
University of Phoenix Stadium
AP/Pete Pallagi, File

Unalaska Powerhouse, Unalaska, Alaska

Governair® Custom Air Handlers

  • Home of the “Deadliest Catch” Dutch Harbor facility, Unalaska, Alaska has some of the world’s most extreme weather.
  • This sub-polar oceanic climate required an air handler capable of standing up to this harsh environment.
  • Governair’s team met this task by designing and manufacturing two custom- stacked air handlers capable of providing enough combustion air to supply the city’s diesel power generators.
  • Standing 40 feet tall, these units boast 6 x 6 quarter-inch tubing. They are capable of withstanding winds up to 175 mph and they achieve the highest seismic rating available – zone 4.
  • Read our case study (PDF)
Unalaska Powerhouse, Unalaska, Alaska

Large Haldron Collider Data Center, Lyon, France

Eaton-Williams® Process Cooling - ServerCool

  • One of the key data centers supporting the Large Haldron Collider uses Eaton-Williams ServerCool to achieve significant energy savings and channel the heat loads.
  • CERN’s Large Haldron Collider (LHC) relies on many strategically placed data centers across the world to process the vast amounts of data generated by the world’s largest experiment.
  • With heat loads and energy costs a major concern, Eaton-Williams Process Cooling, in close collaboration with Serviware and IBM in France, designed an energy efficient critical cooling solution for France’s National Institute of Nuclear Physics and Particle Physics (IN2P3/CNRS) in Lyon, one of the 11 Tier 1 data centers (CC-IN2P3).
  • Read our press release
Large Haldron Collider Data Center, Lyon, France
Courtesy of CERN

Center for Scientific Computing, University of Warwick

Eaton-Williams Process Cooling

  • The removal of heat and saving energy are major environmental challenges facing data centers.
  • Working closely with IBM in the US, Eaton-Williams Process Cooling has developed a number of products specifically for data centre environments including CDUs (Cooling Distribution Units) and rear door heat exchangers (RDHx) that remove heat at source using chilled water as the coolant.
  • This approach has proved so successful in reducing costs, energy consumption and freeing up floor space that its RDHx won the Silicon Valley Leadership Group’s (SVLG) sponsored “Chill-Off” in 2008 for being the most energy efficient data centre cooling product.
  • EWPC worked with the Center for Scientific Computing and their engineers to successfully provide effective and reliable solutions for their environmental concerns with the capacity for future expansion.
  • Read our press release
Center for Scientific Computing, University of Warwick

Australia National Maritime Museum, Sydney

VAPAC® Humidifiers

  • Product reliability helped Vapac win a major contract to supply humidifiers for Australia’s National Maritime Museum.
  • Sydney experiences extremes of weather – particularly in Spring and Fall when humidity levels can hit 30% or less.
  • The weather factor, combined with the museum’s role as guardian and protector of Australian antiquities and maritime treasures, required total climate control, and the museum staff stipulated and environment with a range of between 40-60% RH.
  • Vapac met the challenge, providing 50% RH levels with a 5% swing allowed (10% maximum).
Center for Scientific Computing, University of Warwick
©Australia National Maritime Museum

Harrogate’s Turkish Bath and Health Spa, Yorkshire

VAPAC Electrode Boilers

  • Vapac’s electrode boilers are traditionally used in ARI conditioning projects ranging from the introduction of humidity to provide a comfortable working environment to the preservation and conservation of art and other artifacts in museums, galleries and depositories around the world.
  • The unique application of Vapac’s electroduce boiler in Harrogate’s world famous Turkish Baths provides a continuous supply of steam for the steam room where temperatures top 113F.
Harrogate’s Turkish Bath and Health Spa, Yorkshire
Harrogate Borough Council Media Dept.