Why was one floor’s laboratory ventilation failing to keep up, when it was even the closest floor to the rooftop fans? Some system sleuthing led two engineers to a fitting conclusion. Read more stories in May Issue 2017.
Why was one floor’s laboratory ventilation failing to keep up, when it was even the closest floor to the rooftop fans? Some system sleuthing led two engineers to a fitting conclusion.
A colleague of mine was the project manager on a commissioning project for a build-out at a five-story, 150,000-sq-ft laboratory building at a large university.
From addressing temporary fixes of the past to preparing existing cooling for the future, take in these 16 tips for successful projects in high-pressure environments.
Waste heat recovery innovation doesn’t make the news that often, so when it does, I have to wonder whether you, clever reader, can steer that innovation toward some creative advancements for the HVAC industry.
Over the years of designing and building HVAC infrastructure, I’ve been fortunate to be able to complete the projects via integrated project delivery (IPD) and design-build (D-B), in addition to design-bid-build (DBB) and construction management (CM).
Critical facilities have many of the same HVAC demands as other buildings, except the consequences of unexpected problems can be catastrophic and expensive.
The Forest Hills Public Schools Community and Aquatic Center in Forest Hills, MI, needed to replace two aging 24-ton dehumidifiers for its 12,000-sq-ft natatorium.