ASME Paper Documents Reliable Data Center Operation With Outside Air and Evaporative Cooling

One of the longest running and most debated topics regarding data center operation is whether or not you can reliably cool a modern data center using outside air alone or with supplemental evaporative cooling.  If you can successfully operate a data center without using any compressorized equipment there are obviously huge energy and money savings.

The two key factors that hold operators back from implementing an obvious saving strategy is fear of equipment failures due to temperature/humidity excursions and due to airborne contaminants.  While server manufacturers publish data in their specification sheets that clearly indicate that their equipment can tolerate a wide range of temperature and humidity there is not much information regarding the impact of particulates and other contaminants.  ASHRAE has recognized the robustness of modern IT equipment by expanding the recommended and allowable temperature and humidity ranges in their widely followed data center design guidelines.  Very little is said regarding air quality other than a recommendation to use at least a MERV 8 filter system.

Over the last 5 years the Mestex division of Mestek has hosted a National Science Foundation research site at their manufacturing facility in Dallas.  This site is part of an Industry/University Cooperative Research Center with principal research from the Mechanical and Aerospace Engineering Department at the University of Texas at Arlington.  A fully instrumented "data pod" has been operating using a commercially available indirect/direct evaporative cooling system from Mestex that can also operate in 100% fresh air mode.  In addition to the dozen sensors normally included with the Aztec brand IDEC system from Mestex the "pod" includes an array of 64 sensors located on the front and rear of the four server racks.  Data has been streamed from all sensors every 15 seconds for the last 4 years.  In addition to this detailed tracking of temperature and humidity conditions there have been a number of studies conducted using copper and silver coupons to evaluate the corrosion potential of operating using outside air and evaporative cooling.  Keep in mind that this application is in Dallas, Texas...a relatively hot/humid climate area.  In addition, because the "pod" is installed between two manufacturing buildings in an industrial zone near downtown Dallas the measured air quality around the "pod" is classified as G2, or moderately harmful to PCBs.

The June, 2017 Volume 139 edition of the ASME Journal of Electronic Packaging includes a paper presenting the results of the last 4 years of the research at this site.  The paper entitled "Qualitative Study of Cumulative Corrosion Damage of Information Technology Equipment in a Data Center Utilizing Air-Side Economizer Operating in Recommended and Expanded ASHRAE Envelope" provides a comprehensive look at the impact of operating a data center in a "real world" application.

The most interesting point presented in the summary section of the paper is that, in spite of the servers installed in this test site already being several years old, there has not been a single server failure in the entire four years of operation.  The ability to dramatically reduce the cost of operating a data center...without unfounded concerns about reliability...is finally being proven true.

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