Fine PM measurements: personal and indoor air monitoring.

This review compiles personal and indoor microenvironment particulate matter (PM) monitoring needs from recently set research objectives, most importantly the NRC published "Research Priorities for Airborne Particulate Matter (1998)". Techniques and equipment used to monitor PM personal exposures and microenvironment concentrations and the constituents of the sampled PM during the last 20 years are then reviewed. Development objectives are set and discussed for personal and microenvironment PM samplers and monitors, for filter materials, and analytical laboratory techniques for equipment calibration, filter weighing and laboratory climate control. The progress is leading towards smaller sample flows, lighter, silent, independent (battery powered) monitors with data logging capacity to store microenvironment or activity relevant sensor data, advanced flow controls and continuous recording of the concentration. The best filters are non-hygroscopic, chemically pure and inert, and physically robust against mechanical wear. Semiautomatic and primary standard equivalent positive displacement flow meters are replacing the less accurate methods in flow calibration, and also personal sampling flow rates should become mass flow controlled (with or without volumetric compensation for pressure and temperature changes). In the weighing laboratory the alternatives are climatic control (set temperature and relative humidity), and mechanically simpler thermostatic heating, air conditioning and dehumidification systems combined with numerical control of temperature, humidity and pressure effects on flow calibration and filter weighing.

[1]  J. Sarnat,et al.  Assessing the Relationship between Personal Particulate and Gaseous Exposures of Senior Citizens Living in Baltimore, MD , 2000, Journal of the Air & Waste Management Association.

[2]  D T Mage,et al.  Personal exposures to respirable particulates and implications for air pollution epidemiology. , 1985, Environmental science & technology.

[3]  J. Chuang,et al.  Lung cancer and indoor air pollution in Xuan Wei, China. , 1987, Science.

[4]  Michael Brauer,et al.  Assessment of Particulate Concentrations from Domestic Biomass Combustion in Rural Mexico , 1996 .

[5]  W A Turner,et al.  Calibration of Sharp Cut Impactors for Indoor and Outdoor Particle Sampling , 2000, Journal of the Air & Waste Management Association.

[6]  Leonard Newman,et al.  Measurement challenges in atmospheric chemistry , 1993 .

[7]  L. Wallace,et al.  Indoor particles: a review. , 1996, Journal of the Air & Waste Management Association.

[8]  B. Brunekreef,et al.  Personal exposure to fine particles in children correlates closely with ambient fine particles. , 1999, Archives of environmental health.

[9]  Jang-Pyo Cheong,et al.  Relationships between indoor and outdoor air quality during the summer season in Korea , 1997 .

[10]  C A Clayton,et al.  Particle Total Exposure Assessment Methodology (PTEAM) 1990 study: method performance and data quality for personal, indoor, and outdoor monitoring. , 1993, Journal of exposure analysis and environmental epidemiology.

[11]  B. Brunekreef,et al.  Personal sampling of airborne particles: method performance and data quality. , 1998, Journal of exposure analysis and environmental epidemiology.

[12]  G. D. Pfeifer,et al.  Particulate matter and manganese exposures in Toronto, Canada , 1999 .

[13]  P. Lioy,et al.  Calibration, Intersampler Comparison, and Field Application of a New PM-10 Personal Air-Sampling Impactor , 1991 .

[14]  John D. Spengler,et al.  Personal exposure to respirable particles: a case study in Waterbury, Vermont , 1984 .

[15]  G. Alván,et al.  Measured exposures by personal monitoring for respirable suspended particles and environmental tobacco smoke of housewives and office workers resident in Bremen, Germany , 1998, International archives of occupational and environmental health.

[16]  J. Xue,et al.  Personal exposure to airborne particles and metals: results from the Particle TEAM study in Riverside, California. , 1996, Journal of exposure analysis and environmental epidemiology.

[17]  K. R. Smith,et al.  Biomass fuel combustion and health. , 1985, Bulletin of the World Health Organization.

[18]  R. Blackburn,et al.  Air pollution in native huts in the highlands of New Guinea. , 1968, Archives of environmental health.

[19]  Martin Röösli,et al.  Validity of Ambient Levels of Fine Particles as Surrogate for Personal Exposure to Outdoor Air Pollution—Results of the European EXPOLIS-EAS Study (Swiss Center Basel) , 2000, Journal of the Air & Waste Management Association.

[20]  P. Lawless,et al.  Maximizing Data Quality in the Gravimetric Analysis of Personal Exposure Sample Filters. , 1999, Journal of the Air & Waste Management Association.

[21]  J D Spengler,et al.  Particle Total Exposure Assessment Methodology (PTEAM) study: distributions of aerosol and elemental concentrations in personal, indoor, and outdoor air samples in a southern California community. , 1993, Journal of exposure analysis and environmental epidemiology.

[22]  D. Dockery,et al.  An association between air pollution and mortality in six U.S. cities. , 1993, The New England journal of medicine.

[23]  J. Lewtas,et al.  Czech-U.S. Epa Health Study: Assessment of Personal and Ambient Air Exposures to Pah and Organic Mutagens in the Teplice District of Northern Bohemia , 1994 .

[24]  J D Spengler,et al.  Low flow rate sharp cut impactors for indoor air sampling: design and calibration. , 1987, JAPCA.

[25]  R. W. Wiener,et al.  Use of a pilot study for designing a large scale probability study of personal exposure to aerosols. , 1991, Journal of exposure analysis and environmental epidemiology.

[26]  Kirk R. Smith,et al.  Air pollution and rural biomass fuels in developing countries: A pilot village study in India and implications for research and policy☆ , 1983 .

[27]  P. Koutrakis,et al.  Techniques for High-Quality Ambient Coarse Particle Mass Measurements. , 1999, Journal of the Air & Waste Management Association.

[28]  N J Wald,et al.  Environmental tobacco smoke exposure and ischaemic heart disease: an evaluation of the evidence , 1997, BMJ.

[29]  S. Sithole,et al.  Indoor Woodsmoke Pollution Causing Lower Respiratory Disease in Children , 1990, Tropical doctor.

[30]  B. Brunekreef,et al.  Childhood exposure to PM10: relation between personal, classroom, and outdoor concentrations. , 1997, Occupational and environmental medicine.

[31]  J. Lewtas,et al.  Evaluation of a personal air sampler for twenty-four hour collection of fine particles and semivolatile organics1 , 1999, Journal of Exposure Analysis and Environmental Epidemiology.

[32]  G. O. Sofoluwe Smoke pollution in dwellings of infants with bronchopneumonia. , 1968, Archives of environmental health.

[33]  G. Hoek,et al.  Comparison of five methods for measuring particulate matter concentrations in cold winter climate , 1996 .

[34]  Otto Hänninen,et al.  Fine Particle (PM25) Measurement Methodology, Quality Assurance Procedures, and Pilot Results of the EXPOLIS Study. , 1999, Journal of the Air & Waste Management Association.

[35]  J C Chow,et al.  Measurement methods to determine compliance with ambient air quality standards for suspended particles. , 1995, Journal of the Air & Waste Management Association.

[36]  P. Lioy Measurement of Personal Exposure to Air Pollution: Status and Needs , 1993 .

[37]  C. S. Li Relationships of indoor/outdoor inhalable and respirable particles in domestic environments. , 1994, The Science of the total environment.

[38]  Ken R. Smith Biomass combustion and indoor air pollution: the bright and dark sides of small is beautiful , 1986 .

[39]  P. Lioy,et al.  The personal, indoor and outdoor concentrations of PM-10 measured in an industrial community during the winter , 1990 .

[40]  P Clifford,et al.  Carcinogens in the nose and throat: nasopharyngeal carcinoma in Kenya. , 1972, Proceedings of the Royal Society of Medicine.

[41]  Wafula Em,et al.  Domestic air pollution from biomass burning in Kenya , 1989 .

[42]  D T Mage,et al.  Estimating Separately Personal Exposure to Ambient and Nonambient Particulate Matter for Epidemiology and Risk Assessment: Why and How , 2000, Journal of the Air & Waste Management Association.

[43]  Keith Phillips,et al.  Assessment of personal exposures to Environmental Tobacco Smoke in British nonsmokers , 1994 .

[44]  N J Wald,et al.  The accumulated evidence on lung cancer and environmental tobacco smoke , 1997, BMJ.

[45]  G. Alván,et al.  Assessment of air quality in Stockholm by personal monitoring of nonsmokers for respirable suspended particles and environmental tobacco smoke. , 1996, Scandinavian journal of work, environment & health.

[46]  Erik Lebret,et al.  Air Pollution Exposure in European Cities: The "Expolis" Study. , 1998 .

[47]  A. Kousa,et al.  Quantitative Analysis of Environmental Factors in Differential Weighing of Blank Teflon Filters , 2002, Journal of the Air & Waste Management Association.

[48]  B. Brunekreef,et al.  Personal sampling of particles in adults: relation among personal, indoor, and outdoor air concentrations. , 1998, American journal of epidemiology.

[49]  A. Cohen,et al.  Lung cancer and air pollution. , 1995, Environmental health perspectives.

[50]  J. Schwartz,et al.  Association of fine particulate matter from different sources with daily mortality in six U.S. cities. , 2000, Environmental health perspectives.

[51]  Sandeep Shah,et al.  Characterization and problems of indoor pollution due to cooking stove smoke , 1993 .

[52]  J D Spengler,et al.  Personal exposure to respirable particulates and sulfates. , 1981, Journal of the Air Pollution Control Association.