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Publication Citation: Airflow and Indoor Air Quality Models of DOE Reference Commercial Buildings

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Author(s): Lisa C. Ng; Amy Musser; Andrew K. Persily; Steven J. Emmerich;
Title: Airflow and Indoor Air Quality Models of DOE Reference Commercial Buildings
Published: February 24, 2012
Abstract: Sixteen reference commercial buildings were defined by the U.S. Department of Energy (DOE) and created as EnergyPlus input files. They were developed for use in assessing new technologies and supporting the development of energy codes. Infiltration rates were inputs to the models, rather than calculated based on established building airflow theory. In order to support more physically-based airflow calculations, as well as contaminant transport analysis, models of the 16 reference buildings were created in the multizone airflow and contaminant program CONTAM. A number of key inputs had to be defined for the CONTAM models, including changes to the interior zoning to account for more realistic airflows. Annual airflow and contaminant simulations were performed in CONTAM for six of the buildings. As expected, the assumed infiltration rates in EnergyPlus did not realistically reflect impacts of indoor-outdoor weather conditions. In contrast, there were clear relationships between the air change rates calculated by CONTAM and weather. The infiltration rates assumed in EnergyPlus were also generally lower than those calculated by CONTAM. Contaminant analyses were also performed for occupant-generated carbon dioxide and volatile organic compounds from indoor sources, as well as for outdoor particulate matter and ozone. The airflow and contaminant calculation results provide a useful baseline for subsequent use of these models to investigation ventilation options and other technologies These are other proposed applications for the CONTAM models are discussed
Citation: NIST TN - 1734
Issue: 1734
Pages: pp. 1 - 59
Keywords: Reference buildings, CONTAM, EnergyPlus, airflow, IAQ, energy, ventilation
Research Areas: Indoor Air Quality, Building and Fire Research
PDF version: PDF Document Click here to retrieve PDF version of paper (4MB)