Heat Pipe for Colleges & Universities
University in New England Enhances Chilled Beam System with Wrap Around Heat Pipes
When a University in New England decided to build a new facility – intended to integrate three programs from three separate colleges within a single building – they opted for chilled beam systems in all their classrooms to reduce overall energy consumption. A Dedicated Outside Air System (DOAS) is utilized to deliver fresh air to all the chilled beams in these rooms.
University of South Florida, Tampa, FL
As one of the largest universities in the state of Florida, USF Tampa is constantly expanding through new buildings and renovations to existing facilities. There also has been a significant push to improve overall energy efficiency and cut energy costs on campus. Download this case study to learn about the wrap-around heat pipe solution that was installed on 36 HVAC units around campus which saves the university an estimated $523,340 annually!
College in Maryland – Science Center
When planning a new Science Building in Maryland, this college placed a heavy emphasis on optimizing energy savings, but also mindful of first costs. Energy recovery in the Maryland climate is a no brainer, but cross-contamination between laboratories and other zones in the building was a concern. HPT offered the passive split energy recovery heat pipe solution, in which this system has the unique ability to transfer heat between non-adjacent air streams without the need for a pump. Download this case study to learn more about how two large split energy recovery heat pipes (HRM-V™) saved the college an estimated $70,000 annually!
Major Florida University – Pathogen Research Facility
Dehumidification and Energy Recovery
When designing a new pathogen research facility, engineers faced a challenging problem: creating a comfortable atmosphere by controlling humidity and temperature, and providing efficient energy recovery while preventing cross-contamination in this sensitive environment. HPT offered two solutions for this application. One being our split passive dehumidification heat pipe (DHP-V™), which wraps around the cooling coil to provide precool/reheat with modulating controllability. The second solution offered was our split passive energy recovery heat pipe (HRM-V™) that recovers energy from exhaust to the supply, non-adjacent air stream. Download this case study to learn more about how these two systems, saved the college an estimated $60,000 annually!