The articles in this issue were selected from presentations made at ASHRAE IAQ 2013: Environmental Health in Low Energy Buildings conference held in Vancouver, Canada, in October 2013. The conference was held specifically to review the state of knowledge regarding the balance of environmental health and energy efficiency in buildings and to help define future education, policy, and research directions. The strong international participation and attendance at the conference demonstrated the relevance of the conference theme.
The designers and operators of buildings and their HVAC systems are increasingly challenged to provide a healthy environment in an energy-efficient manner. Increasing pressure to reduce energy consumption has come from those concerned about building energy use as a major factor in carbon dioxide emissions to the atmosphere and the steadily growing global greenhouse gas concentrations. (Intergovernmental Panel on Climate Change [IPCC] 2007; California Energy Commission 2011). Building energy efficiency is regarded as the “low-hanging fruit” in human efforts to reduce human contributions to global atmospheric carbon dioxide and its role in global climate change (IPCC Citation2007).
There is currently an abundance of initiatives in both the public and the private sector to aggressively reduce building energy use. Examples are available at the state and federal levels as well as in ASHRAE (ASHRAE Citation2011), U.S. Green Building Council (USGBC; Citation2009), European Commission (Citation2012), the American Institute of Architects 2030 Commitment (American Institute of Architects Citation2013), and Architecture 2030 (2013). Many of these initiatives are focused almost exclusively on reducing energy use, often without measures aimed at maintaining healthy indoor environmental quality (IEQ), while others cover IEQ but not as thoroughly as energy performance. ASHRAE's advanced energy design guides (AEDGs) also pay only minimal attention to indoor air quality (IAQ). While ASHRAE, in partnership with the EPA and others, developed the comprehensive Indoor Air Quality Guide (ASHRAE Citation2009), its distribution has been orders of magnitude smaller than that of the AEDGs, which may reflect the relative level of interest in and awareness about the means to achieving good IAQ relative to low energy use.
The complex relationship between indoor and outdoor environmental conditions, coupled with the impacts of climate change, requires an increased focus on creating buildings that are comfortable and healthy for occupants yet also energy efficient. While most of the recent attention has focused on energy efficiency, others within the building community have continued to focus on the need to avoid energy efficiency measures that adversely affect IEQ and occupant health and well-being (Fisk et al. Citation2002; Levin Citation2007; Institute of Medicine Citation2011; Levin and Phillips Citation2013; Teichman et al. Citation2013). Although the goal of improved IAQ and thermal comfort can be achieved by increasing energy consumption, it can also be achieved without significant increase or even with decreased energy consumption (Levin and Teichman Citation1991; Persily and Emmerich Citation2012).
ASHRAE IAQ 2013 and the articles published in this issue address a number of topics relating to environmental health in low-energy buildings, including moisture and health, sources and chemistry, IEQ factor interactions, residential buildings, commercial and institutional buildings, air cleaning and filtration, microorganisms and infection, and tools.
One purpose of the conference was the identification of knowledge gaps, and as a result, the following priority topics are recommended for further research:
Field studies of IAQ and health of low-energy buildings
Analysis of the “sweet spot” between energy use and IAQ or occupant health. This might be accomplished through meta-analysis, modeling, or an effort to find the ideal environment from a health perspective, then the lowest energy path to achieve it.
References
- American Institute of Architects. 2013. 2030 Commitment. http://www.aia.org/about/initiatives/AIAB079544.
- Architecture 2030. 2013. http://www.architecture2030.org/.
- ASHRAE. 2009. Indoor air quality guide: Best practices for design, construction, and commissioning. http://iaq.ashrae.org/.
- ASHRAE 2011. ANSI/ASHRAE/USGBC/IES Standard 189.1-2011, Standard for the Design of High-Performance Green Buildings. Atlanta: ASHRAE.
- California Energy Commission. 2011. Achieving energy savings in California buildings: Saving energy in existing buildings and achieving a zero‐net‐energy future. http://www.energy.ca.gov/2011publi-cations/CEC-400-2011-007/CEC-400-2011-007-SD.pdf.
- European Commission. 2012. Directive 2012/27/EU on energy efficiency. http://ec.europa.eu/energy/efficiency/eed/eed_en.htm.
- Fisk, W.J., G. Brager, H. Burge, J. Cummings, H. Levin, V. Loftness, M.J. Mendell, A. Persily, S. Taylor, and J. Zhang. 2002. Energy-related indoor environmental quality research: A priority agenda. LBNL 51328, Lawrence Berkeley National Laboratory, Berkeley, CA.
- Intergovernmental Panel on Climate Change (IPCC). 2007. Working Group III Report, Mitigation of Climate Change, Chapter 6, Residential and commercial buildings. . M. Levine (USA) and D. Ürge-Vorsatz (Hungary), coordinating lead authors. Geneva, Switzerland: Intergovernmental Panel on Climate Change.
- Institute of Medicine. 2011. Climate change, indoor environment, and public health. Washington, D.C.: Institute of Medicine.
- Levin, H. 2007. Proceedings of ASHRAE IAQ 2007, plenary lecture, Target resource & emissions budgets for healthy & sustainable buildings. Atlanta: ASHRAE.
- Levin, H., and T.J. Phillips. 2013. Indoor environmental quality research roadmap 2012–2030: Energy-related priorities. Prepared for the California Energy Commission. . http://www.buildingecology.com/articles/indoor-environmental-quality-research-roadmap-201220132030-energy-related-priorities/
- Levin, H., and K. Teichman. 1991. Indoor air quality: Guidelines for architects. Progressive Architecture, 1991(3): 52–57.
- Persily, A.K., and S.J. Emmerich. 2012. Indoor air quality in sustainable, energy efficient buildings. HVAC&R Research 18(1–2):4–20.
- Teichman, K.Y., A.K. Persily, and S.J. Emmerich. 2013. Indoor air quality in high-performing building case studies: A wealth of intent, a dearth of data. Proceedings of ASHRAE IAQ 2013, Vancouver, Canada, October 15–18.
- U.S. Green Building Council (USGBC). 2009. LEED 2009 for new construction and major renovations rating system. Washington, D.C.: U.S. Green Building Council.