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Reference

  1. California Energy Commission, 2016 Building energy efficiency standards for residential and nonresidential buildings. 2016, California Energy Commission: Sacramento, CA.
  2. ASHRAE, ASHRAE Standard 62.1-2016 Ventilation for acceptable indoor air quality. 2016, American Society of Heating, Refrigerating, and Air Conditioning Engineers, Inc.: Atlanta, GA.
  3. Emmerich, S.J. and A.K. Persily, State of the art review of CO2 demand controlled ventilation technology and application. NISTIR 6729. 2001, National Institute of Standards and Technology: Gaithersburgh, MD.
  4. Brandemuehl, M.J. and J.E. Braun, The impact of demand controlled and economizer ventilation strategies on energy use in buildings. ASHRAE Transactions, 1999. 105(2): p. 39-50.
  5. Persily, A., et al., Simulations of indoor air quality and ventilation impacts of demand controlled ventilation in commercial and institutional buildings. NIST, NISTIR, 2003. 7042.
  6. Hong, T. and W.J. Fisk, Assessment of energy savings potential from the use of demand control ventilation systems in general office spaces in California. LBNL-3165E. 2009, Lawrence Berkeley National Laboratory: Berkeley, CA. 
  7. Fisk, W.J., et al., CO2 monitoring for demand controlled ventilation in commercial buildings. LBNL-3279E. 2009, Lawrence Berkeley National Laboratory: Berkeley, CA.
  8. Shrestha, S.S., Performance evaluation of carbon dioxide sensors used in building HVAC applications. Graduate theses and dissertations. 2009, Iowa State University. http://lib.dr.iastate.edu/etd/10507.
  9. NBCIP, Product testing report, wall mounted carbon dioxide (CO2) transmitters. 2010, National Building Controls Information Program: http://docplayer.net/38081024-Introduction-program-sponsors-california-energy-commission-iowa-energy-center-march-2010.html.
  10. Chan, W.R., et al., Measurement and control of ventilation rates in commercial buildings in California, LBNL report number pending. 2018, Lawrence Berkeley National Laboratory: Berkeley, CA.
  11. Fisk , W.J., et al., Demand controlled ventilation and classroom ventilation, LBNL-6563E. 2012, Lawrence Berkeley National Laboratory: Berkeley, CA.
  12. Persily, A. and L. de Jonge, Carbon dioxide generation rates for building occupants. Indoor Air, 2017. 27: p. 868-879.
  13. Chan, W.R., et al., Contaminant levels, source strengths, and ventilation rates in California retail stores. Indoor Air, 2015. 25: p. 381-392.
  14. Bennett, D.H., et al., Ventilation, temperature, and HVAC characteristics in small and medium commercial buildings (SMCBs) in California. Indoor Air, 2012. 22(4): p. 309-320.
  15. Mendell, M.J., et al., Association of classroom ventilation with reduced illness absence: a prospective study in California elementary schools. Indoor Air, 2013. 23(6): p. 515-528.
  16. Mendell, M.J., et al., A longitudinal study of ventilation rates in California office buildings and self-reported occupant outcomes including respiratory illness absence. Building and Environment, 2015. 92: p. 292–304.
  17. Persily, A.K. and J. Gorfain, Analysis of ventilation data from the U.S. Environmental Protection Agency Building Assessment Survey and Evaluation (BASE) Study, NISTIR-7145-Revised. 2008, National Institute for Standards and Technology: Bethesda. MD.
  18. Fisk, W.J., D. Faulkner, and D.P. Sullivan, Technologies for measuring flow rates of outdoor air into HVAC systems: some causes and suggested cures for measurement errors. ASHRAE Transactions, 2005. 111(2): p. 456-463.
  19. Fisk, W.J., D. Faulkner, and D.P. Sullivan, An evaluation of three commercially available technologies for real-time measurement of rates of outdoor airflow into HVAC systems. ASHRAE Transactions, 2005. 111(2): p. 443-455.
  20. Fisk, W.J., D. Faulkner, and D.P. Sullivan, Measuring outdoor airflow into HVAC systems. ASHRAE Journal, 2006. 48(8): p. 50-57.
  21. Fisk, W.J., D. Faulkner, and D.P. Sullivan, Real-time measurement of rates of outdoor airflow into HVAC systems: a field study of three technologies. LBNL 58856. 2005c, Lawrence Berkeley National Laboratory: Berkeley, CA.
  22. Fisk , W.J., W.R. Chan, and T. Hotchi, Prototype systems for measuring outdoor air intake rates in rooftop air handlers, LBNL-181030. 2015, Lawrence Berkeley National Laboratory: Berkeley, CA.
  23. Fisk , W.J., S. Cohen, and D.P. Sullivan, Measuring outdoor air intake rates using electronic velocity sensors at louvers and downstream of airflow straighteners, LBNL1250E. 2008, Lawrence Berkeley National Laboratory: Berkeley, CA.
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