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Concentrations of volatile organic compounds at a building with health and comfort complaints

Journal Article · · American Industrial Hygiene Association Journal; (USA)
; ;  [1]
  1. Bell Communications Research, Red Bank, NJ (USA)
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For four separate periods over a 1-yr span, the concentrations of volatile organic compounds (VOCs) have been measured at a facility with a history of occupant complaints. The reported symptoms were characteristic of sick building syndrome. This study was initiated to determine if VOC levels were higher than those measured in complaint-free buildings and, if so, to identify sources and other factors that might contribute to the elevated concentrations. VOCs were collected with passive samplers, using a sampling interval that lasted from 3 to 4 weeks. Following collection, the samplers were extracted, and the compounds in the extract were separated and identified using standard gas chromatographic-mass spectrometric procedures. Over 40 different organic compounds with concentrations in excess of 1 microgram/m3 were identified; several species had values greater than 100 micrograms/m3. For each of the first three sampling periods, the total concentration of VOCs detected using this methodology was in excess of 3 mg/m3. Sources of the identified compounds included cleaning products, floor wax, latex paints, and reentrained motor vehicle exhaust. However, the dominant source was the hydraulic system for the buildings' elevators. Compounds were volatilizing from the hydraulic fluid used in this system. Neither the elevator shafts nor the mechanical room housing the fluid reservoirs were vented to the outside. The problem was compounded by the relatively small amount of outside air used for ventilation at this facility. At such low ventilation rates, compounds with strong sources can achieve high steady-state concentrations within the facility. Recommendations have been made to reduce the VOC levels at this site. Although implementing the recommendations will be costly, even a slight improvement in employee productivity will offset these costs.
OSTI ID:
7065443
Journal Information:
American Industrial Hygiene Association Journal; (USA), Journal Name: American Industrial Hygiene Association Journal; (USA) Vol. 51:5; ISSN AIHAA; ISSN 0002-8894
Country of Publication:
United States
Language:
English

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54 ENVIRONMENTAL SCIENCES
540120* -- Environment
Atmospheric-- Chemicals Monitoring & Transport-- (1990-)
AIR POLLUTION
AIR POLLUTION MONITORING
AIR SAMPLERS
CHROMATOGRAPHY
COATINGS
ECOLOGICAL CONCENTRATION
ENVIRONMENTAL EXPOSURE
EQUIPMENT
EXHAUST GASES
FLUIDS
GAS CHROMATOGRAPHY
GASEOUS WASTES
GASES
HYDROCARBONS
INDOOR AIR POLLUTION
MASS SPECTROSCOPY
MATTER
MOLECULAR WEIGHT
ORGANIC COMPOUNDS
PAINTS
POLLUTION
POLLUTION SOURCES
RECOMMENDATIONS
SAMPLERS
SEPARATION PROCESSES
SOLVENTS
SPECTROSCOPY
VENTILATION
VOLATILE MATTER
WASTES