Cost Analysis of Annual and Monthly Net Zero Energy Performance for Multifamily Buildings in the United States
Publication: Journal of Architectural Engineering
Volume 27, Issue 2
Abstract
As the United States continues its progress toward sustainable construction, net zero building design is becoming an increasingly important and popular topic. Two definitions of net zero energy performance, monthly and annual, provide different levels of energy autonomy and efficiency within a building. This article analyzes the viability and incremental cost for two-, three-, and four-story multifamily apartment buildings to reach both annual and monthly net zero energy performance throughout four climate zones in the United States using baseline reference buildings that represent current construction practices. Building size plays a large role in determining the capability for a building model to reach annual or monthly net zero. Two-story buildings are capable of reaching annual net zero with an increase in construction cost of about 4.4–5.6%. Three-story buildings in warmer climates can achieve annual net zero with an increase of about 5.1%, but models in colder climates cannot reach annual net zero performance. Four-story buildings cannot achieve net zero, owing to insufficient building area for solar arrays to produce electricity. Monthly net zero energy performance was significantly harder to achieve, with the only case reaching this goal being the two-story Houston based model, at an added cost of 8.2%. Generally speaking, only small buildings in warm climates will be able to achieve monthly net zero without vastly oversizing photovoltaic systems and increasing costs without adequate payback.
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References
ASHRAE (American Society of Heating, Refrigerating and Air-Conditioning Engineers). 2016. Energy standard for buildings except low-rise residential buildings. Standard 90.1-2016. Atlanta: ASHRAE.
Christensen, C., S. Horowitz, T. Givler, A. Courtney, and G. Barker. 2005. Beopt: Software for identifying optimal building designs on the path to zero net energy. Rep. No. NREL/CP-550-37733. Golden, CO: NREL.
Clarin, B., R. Narayanamurthy, R. Hammon, I. Hammon-Hogan, and W. Vicent. 2016. “Establishing feasibility of residential zero net energy community development - Learnings from California’s First ZNE Neighborhood.” American Council for an Energy-Efficient Economy Summer Study on Energy Efficiency in Buildings. Washington, DC: American Council for an Energy-Efficient Economy.
Deru, M., et al. 2011. US department of energy commercial reference building models of the national building stock. Rep. No. NREL/TP-5500-46861. Golden, CO: NREL.
DOE. 2020. “Status of state energy code adoption: Building energy codes program. Accessed July 14, 2020. https://www.energycodes.gov/status-state-energy-code-adoption.
Freeman, J. M., N. A. DiOrio, N. J. Blair, T. W. Neises, M. J. Wagner, P. Gilman, and S. Janzou. 2018. System advisor model (SAM) general description (version 2017.9. 5). Rep. No. NREL/TP-6A20-70414. Golden, CO: NREL.
Fu, R., D. Feldman, R. Margolis, M. Woodhouse, and K. Ardani. 2017. US solar photovoltaic system cost benchmark: Q1 2017. Rep. No. NREL/PR-6A20-68580. Golden, CO: NREL.
Holladay, M. 2018. “Cold weather performance reports from minisplit owners.” Greenbuildingadvisor. Accessed July 14, 2020. https://www.greenbuildingadvisor.com/question/cold-weather-performance-reports-from-minisplit-owners.
Home Advisor. 2020. “2020 Ductless heat pump costs - install mini-split heating & cooling.” Denver: Home Advisor.
HVAC Direct. 2020. Goodman 2 Ton 13 SEER air conditioner split system. Accessed July 14, 2020. https://hvacdirect.com/goodman-2-ton-13-seer-air-conditioner-split-system-id628.html.
International Code Council. 2009. International energy conservation code. Whittier, CA: International Code Council, Inc.
Kneifel, J., and E. O’Rear. 2016. Net-zero energy residential building component cost estimates and comparisons. Gaithersburg, MD: US Dept. of Commerce, National Institute of Standards and Technology.
Mitsubishi Electric. 2020. “Year-round comfort in any climate.” Accessed July 14, 2020. https://www.mitsubishicomfort.com/benefits/hyper-heating.
Nowak, D. J., and J. T. Walton. 2005. “Projected urban growth (2000–2050) and its estimated impact on the us forest resource.” J. For. 103 (8): 383–389.
Peterson, K., P. Torcellini, and R. Grant. 2015. “A common definition for zero energy buildings.” Accessed July 14, 2020. https://www.energy.gov/eere/buildings/articles/doe-releases-common-definition-zero-energy-buildings-campuses-and.
Phelan, M. 2017. 2017 assemblies cost with RSMeans Data. Greenville, SC: Gordian.
Plotner, S. C. 2017. Building construction costs with RSMeans Data 2017. Greenville, SC: Gordian.
Roberts, D. 2012. National residential efficiency measures database aimed at reducing risk for residential retrofit industry. Rep. No. DOE/GO-102012-3229. Golden, CO: NREL.
US Census Bureau. 2020. “Characteristics of new housing: Multifamily buildings.” Accessed July 14, 2020. https://www.census.gov/construction/chars/mfb.html.
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Published In
Journal of Architectural Engineering
Volume 27 • Issue 2 • June 2021
Copyright
© 2021 American Society of Civil Engineers.
History
Received: Jan 10, 2020
Accepted: Oct 20, 2020
Published online: Jan 29, 2021
Published in print: Jun 1, 2021
Discussion open until: Jun 29, 2021
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