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Akira Yamaguchi Professor of Health & Human Habitation Harvard School of Public Health

Indoor Environments. John D. Spengler, Ph.D. Akira Yamaguchi Professor of Health & Human Habitation Harvard School of Public Health. E-119 November 9, 2010. Indoor Environmental Quality in Buildings. Commercial Building Energy Use. LIGHTING 27% Space Heating 15% Space Cooling 14%.

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Akira Yamaguchi Professor of Health & Human Habitation Harvard School of Public Health

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  1. Indoor Environments John D. Spengler, Ph.D. Akira Yamaguchi Professor of Health & Human Habitation Harvard School of Public Health E-119 November 9, 2010

  2. Indoor Environmental Quality in Buildings

  3. Commercial Building Energy Use LIGHTING 27% Space Heating 15% Space Cooling 14% Energy Future. American Physical Society (2008)

  4. Sick Building Syndrome (WHO, 1983) Diagnosis of SBS requires demonstration of an elevated complaint or symptom prevalence that is associated with a particular building, and that symptom patterns do not match other clinically recognized syndromes.

  5. Sick Building Syndrome Symptoms linked to building Resolve when not in building Effect a substantial fraction of occupants Terminology

  6. Dry, itchy eyes Nasal irritation Hoarseness, irritated throat, laryngitis Skin problems Fuzzy thinking, memory Irritability, sleep disruption, fatigue Headaches, nausea Sick Building Symptoms

  7. Contagious Diseases Influenza SARS Common cold (HRV) Measles Chicken pox TB Environmental Legionnaires Humidifier fever Asthma CO poisoning Nitrogen Dioxide Pesticide poisoning Lung Cancer Radon, asbestos, ETS Potential Building Related Illnesses

  8. Odors, drafts, temperature, humidity Water intrusion Dust, particles Vibrations, visual changes, new equipment, alterations, maintenance Management stresses, labor issues, personal agendas Rumors Triggers of IAQ Concerns

  9. Sustainability Guidelines Partially Address Health • Low VOC’s • Ventilation • Commissioning • CO2 monitoring • LEED and BREEM have IEQ credits

  10. IAQ and Building Costs • Labor $200 / square foot • Financing $ 20 / square foot • Energy $ 2 / square foot • Cleaning $ 1 / square foot

  11. How Sustainable Buildings Could Improve Health & Productivity Thermal state Hearing & concentration Vision Attitude Mental performance Sustainable Buildings Better design, construction, commissioning & O&M Superior Work Performance Economic Benefits Improved Indoor Environmental Quality Less Absence Reduced Health Care Costs Better Health W. Fisk, LBNL, White House Conference, Jan. 2006

  12. New construction methods and new materials

  13. Molds and chemical indoors

  14. Rooftop HVAC System

  15. Air Handling & Conditioning Source: EPA

  16. Complex Roof Top

  17. Standing Water

  18. School Unit Ventilators

  19. Re-entrapment

  20. Air Intakes

  21. HVAC Filters

  22. Large Filter Banks

  23. Mixing Chamber

  24. Condensate Drip Pan

  25. Scaling from Drip Pan and Slime Mold

  26. Dirty coils and energy loss

  27. = Reference Group = Significantly more symptoms = Same # Air Conditioning (AC) Link to Increased SBS Symptoms in Offices Type of ventilation system Source: Seppanen and Fisk, Indoor Air Journal 2002

  28. Renewed Interest in UVC

  29. Ventilation Ducts

  30. Fiberglass Lined Ducts

  31. Cleanliness of air handling systems – potential explanation • The air handling system is a source of sensory air pollution in buildings • Every component seems to generate pollution (European Airless Project 2001) • filters, coils, ducts

  32. Dirty Ducts

  33. Fiberglass Soundproofing

  34. Rodent Nest

  35. Adequate Air Mixing

  36. 62 office printers were investigated for ultra-fine particle Emissions in typical open office space. 4 classes: none emitters, low emitters, medium and high Emitters 60% no or low emitters 13% medium emitters 27% high emitters

  37. P/cc 100,000 10,000 1,000 100

  38. Supply Register

  39. Ventilation Fresh Outside Air – delivered indoors • cfm / person cubic feet per minute per person – or – • l / s – p liters per second per person

  40. Ventilation Requirements • 1.5 cfm / person – O2 demand • 2.5 cfm / person – CO2 dilution • 5 cfm / person – old energy standard • 10 cfm / person – people without sources

  41. Minimum Ventilation Rates Source: EPA

  42. ASRAE 62 Standards • 62-73 was 5cfm/p • 62-81 5cfm/p but 15cfm/p with smoking • 62-89 15cfm/p assumed smoking • 62-97 15cfm/p excluded smoking • 62-2003 separate residential stnd.

  43. Ventilation Guidelines • Minimum • 15 cfm / person • Office • 20 cfm / person • Smoking • 60 cfm / person

  44. The Evidence for Ventilation: • Major Points • Higher ventilation rate (higher rate of outdoor air supply) is associated with objectively measured improvements in work performance • Higher ventilation rate is associated with reduced respiratory illness, less absence, and reduced sick building symptoms W Fisk, LBNL

  45. Classroom code minimum Current minimum for offices in most codes L/s-p 21 42 66 85 106 cfm/p 0 Performance relative to performance with 6.5 L/s-person (13 cfm/person) Seppanen, Fisk, Lei-Gomez (Indoor Air Journal 2005)

  46. An example of data on ventilation and short term sick leave (Milton et al. 2000) Short term sick leave 1.96 % 1.6 days per year 40 buildings in study 1.16 % 24 L/s per person 12 L/s 24 cfm 48 cfm per person

  47. Even in Green Schools Ventilation can be Inadequate

  48. The Evidence for Temperature: • Major Point • High and low temperature is associated with objectively measured decrements in work performance

  49. Relative Work Performance vs. Temperature (maximum performance at at 21.8 oC, 72 oF ) Source: Statistical analysis of research data from 24 studies relating temperature with objectively measured work performance outcomes Seppanen and Fisk (2005)

  50. Acceptability of Indoor Air

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