ASHRAE Standard helps determine office equipment heat gain.

Press Release Summary:



ASHRAE/ANSI Standard 203-2014, Method of Test for Determining Heat Gain of Office Equipment Used in Buildings, prescribes methods of test to determine the range and average operating heat gains of electrical equipment for use in cooling load calculations. Standard applies to plug-load type electrical equipment, such as computers, monitors, printers, and projectors, which are estimated to use between 20–50% of building's energy.



Original Press Release:



New ASHRAE Standard Provides Method of Test on Determining Heat Gain of Office Equipment



ATLANTA – The growing use of plug loads in buildings as well as insufficient data on how much energy they generate present a challenge to engineers in determining how to best cool a building.



Guidance to meet that challenge is contained in a new standard from ASHRAE. ASHRAE/ANSI Standard 203-2014, Method of Test for Determining Heat Gain of Office Equipment Used in Buildings, prescribes methods of test to determine the range and average operating heat gains of electrical equipment for use in cooling load calculations. The standard applies to plug-load type electrical equipment.



Plug loads (computers, monitors, printers, projectors, etc.) are estimated to use between 20 to 50 percent of building energy use. They have evolved to become a larger percentage of a building’s overall heat.



Two factors are responsible for that increase, according to Glenn Friedman, chair of the Standard 203 committee.



“First, over time, computer use has continued to increase, resulting in a much larger number of personal computers in buildings,” he said. “Second, advances in building techniques have improved envelopes and reduce that portion of load/energy use.”



Engineers optimize HVAC equipment selections by performing cooing load calculations. Internal heat gains from plug loads are a significant portion of those calculations.



“Most plug loads operate at a fraction of their nameplate electrical load, so, as a result, produce significantly less heat load than engineers may use in their cooling load calculations based on those nameplate values,” he said. “This can result in oversizing of air-conditioning equipment, resulting in extra initial cost for that equipment as well as higher operating cost.”



Friedman noted that engineers face several challenges when it comes to determining heat gain of equipment. Since there are no standards for establishing how the power consumption or heat rejection data or various plug loads is determined, it is difficult for engineers to accurately use this data in their cooling load calculations.  ASHRAE has funded research to develop a test method and measure plug load type equipment heat rejection. In addition, plug load type equipment is an ever evolving market, so equipment design changes frequently and requires new testing for power consumption and generation of heat rejection data for cooling load calculation use.



The cost of Standard 203-2014, Method of Test for Determining Heat Gain of Office Equipment Used in Buildings, is $41 ($35 member). To order, contact ASHRAE Customer Contact Center at 1-800-527-4723 (United States and Canada) or 404-636-8400 (worldwide), fax 678-539-2129, or visit www.ashrae.org/bookstore.



ASHRAE, founded in 1894, is a global society advancing human well-being through sustainable technology for the built environment. The Society and its more than 50,000 members worldwide focus on building systems, energy efficiency, indoor air quality, refrigeration and sustainability. Through research, standards writing, publishing, certification and continuing education, ASHRAE shapes tomorrow’s built environment today. More information can be found at www.ashrae.org/news.

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