Each ClimateCraft product is designed to increase efficiency, maximize profits, and provide a solution to any customers’ unique need. Below is a list of ClimateCraft products and how they can be applied in a variety of diverse applications.
ACCESS
When retrofit is required and space is limited in the mechanical room, ACCESS air handling units are engineered to be assembled on the job site. ACCESS comes with full factory support and a long list of successful installations where traditional instillation methods would be impossible. In 2011 for example, the air handling unit at Vanderbilt University Medical Center began to fail. With a short timeline of one weekend, a request from the customer for minimal disruption and only a 6 ft wide opening to the mechanical room, the mechanical team, against all odds, installed the unit ahead of schedule and saved 10% on labor costs with ClimateCraft’s ACCESS.
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FanMatrix
Using multiple fans in each air handler and fully redundant AHUs, the FanMatrix minimizes air flow disruptions from mechanical failures. The fan array towers of the FanMatrix will provide any project with excellent air handling performance while balancing longevity with operational costs. The University of Texas MD Anderson Cancer Center utilized ClimateCraft ACCESS units with FanMatrix arrays which ultimately reduced operating costs and improving reliability. With eight new 10 HP fans in an array, MD Anderson no longer had to worry about an AHU shut down. If one fan fails, the other fans will adjust to compensate for the shortage.
MatrixMonitor
MatrixMonitor allows owners to operate efficiently by including a remote BAS system. This cost saving airflow measurements and monitor system enhances reliability and continually checks equipment operation. This tool improves operational performance by providing accurate airflow measurements on fan arrays, adjusts for air density changes automatically, and tracks fan array pressure increase and air temperature which allows faster adjustments of performance issues. The microprocessor-based design reduces internal wiring which in all, improves reliability. Motor life is extended because of fan surge detection and reporting to avoid equipment from operating in the surge region. Improved serviceability is backed by notification for fan bearing lubrication and fan vibration monitoring to predict and prevent motor failures.
