Read Books Online and Download eBooks, EPub, PDF, Mobi, Kindle, Text Full Free.
Human Exposure To Dynamic Air Pollutants
Download Human Exposure To Dynamic Air Pollutants full books in PDF, epub, and Kindle. Read online Human Exposure To Dynamic Air Pollutants ebook anywhere anytime directly on your device. Fast Download speed and no annoying ads. We cannot guarantee that every ebooks is available!
Author :Sponsored by The Health Effects Institute Publisher :National Academies Press ISBN 13 :0309037263 Total Pages :703 pages Book Rating :4.3/5 (9 download)
Book Synopsis Air Pollution, the Automobile, and Public Health by : Sponsored by The Health Effects Institute
Download or read book Air Pollution, the Automobile, and Public Health written by Sponsored by The Health Effects Institute and published by National Academies Press. This book was released on 1988-01-01 with total page 703 pages. Available in PDF, EPUB and Kindle. Book excerpt: "The combination of scientific and institutional integrity represented by this book is unusual. It should be a model for future endeavors to help quantify environmental risk as a basis for good decisionmaking." â€"William D. Ruckelshaus, from the foreword. This volume, prepared under the auspices of the Health Effects Institute, an independent research organization created and funded jointly by the Environmental Protection Agency and the automobile industry, brings together experts on atmospheric exposure and on the biological effects of toxic substances to examine what is knownâ€"and not knownâ€"about the human health risks of automotive emissions.
Book Synopsis Human Exposure to Dynamic Air Pollutants by : Seema Vijay Bhangar
Download or read book Human Exposure to Dynamic Air Pollutants written by Seema Vijay Bhangar and published by . This book was released on 2010 with total page 318 pages. Available in PDF, EPUB and Kindle. Book excerpt: To effectively control health risks associated with an airborne contaminant we need to understand when, where, why, and how much humans come into contact with the contaminant. To answer these questions, the temporal and spatial variability in levels of species must be evaluated in relation to the locations of humans in space and time. Characterizing human exposure through the measurement of pollutant levels within occupied microenvironments where people spend time is particularly important for species that have sharp gradients owing to rapid environmental processing. This is especially true if the pollutant dynamics are influenced by the presence or activities of the occupants themselves. This dissertation investigates inhalation exposures to two dynamic air pollutants in two important settings: ultrafine particles (UFP) in residences and ozone in aircraft cabins. New field data were acquired and observed pollutant trends were modeled to assess the importance for indoor concentrations and exposures of outdoor levels, ventilation characteristics, indoor sources, pollutant dynamics, human factors, and control strategies. Study findings can be applied to assess the risk associated with each exposure scenario and to suggest conditions under which interventions are likely to have the greatest public health impact. In the first part of the dissertation, residential exposures to ultrafine particles were characterized and governing factors explored on the basis of field data collected from single-family houses in California. During the field study, time-resolved particle number (PN) concentrations were monitored indoors and outdoors over a multi-day period, and information was acquired concerning occupancy, source-related activities, and building operation. Technological challenges have limited prior efforts to acquire time-resolved data on UFP from homes under normal occupied conditions, data that are potentially important for understanding total daily exposures to ultrafine particles as people spend a majority of their time in their own homes. Results showed levels of ultrafine particles in houses to be highest when residents were present and awake, mainly due to their cooking and other activities that constituted episodic indoor sources. On average, the contribution to residential exposures from indoor episodic sources was 150 percent of the contribution from particles of outdoor origin. A previously unstudied continuous indoor source, unvented pilot lights, caused baseline particle levels to be significantly elevated in houses where present. Particle control devices -- a filter or an electrostatic precipitator -- were successful at mitigating exposure by reducing the persistence of particles indoors. We found that, owing to the importance of indoor sources, variations in the infiltration factor, and the influence of human behavior patterns on indoor UFP levels, residential exposures to ultrafine particles could not be characterized either by ambient levels or by average indoor levels alone. The source characterization and exposure apportionment results from the study of ultrafine particles in residences were applied to quantify inhalation intake fractions (iF) for ultrafine particles emitted from indoor sources. Intake fraction is an exposure metric that quantifies the mass of pollution inhaled by all exposed persons per mass of pollution released. As such, iF estimates encapsulate the exposure effectiveness of a source under the exposure conditions considered. The analysis presented is one of only a few iF investigations focused on UFP and is also the first semi-empirical iF investigation for indoor sources to rely on experimental data resolved at the level of individual occupants and source-events. For the continuous source (unvented pilot lights) and the episodic source events observed during the monitoring period at all study sites, estimated intake fractions ranged from 0.7 0× 10-3 to 16 0× 10-3, consistent with previous estimates for contaminants released indoors. House-specific factors such as the volume and number of residents, and occupant-specific factors such as breathing rates and time-activity patterns, had a significant influence on iF. Particle loss rates and occupancy patterns did not vary markedly among source types. Consequently, source type did not have a significant, independent influence on intake fractions. In the second part of the dissertation, ozone levels in airplane cabins and factors that influence them were studied on commercial passenger flights. Ozone levels in passenger aircraft had not been the subject of a full-scale time-resolved monitoring effort since 1980, when U.S. Federal Aviation Regulations limiting ozone in cabin air were adopted. Studies conducted prior to 1980 were in need of an update because, in the past three decades, the operating conditions of commercial aircraft have changed significantly. Moreover our understanding of ozone's reactions with cabin surfaces, including human surfaces, and of the health risks associated with exposure to ozone and ozone oxidation byproducts has grown. Findings on in-cabin ozone need to be interpreted in light of the new findings. To close this knowledge gap real-time ozone data were collected within the cabins of commercial passenger aircraft on 76 flight segments. Sample mean ozone level, peak-hour ozone level, and flight-integrated ozone exposures were highly variable across U.S. domestic segments, with ranges of 1.5 to 146 ppb, 3 to 275 ppb, and
Book Synopsis Integrated Human Exposure to Air Pollution by : Nuno Canha
Download or read book Integrated Human Exposure to Air Pollution written by Nuno Canha and published by MDPI. This book was released on 2021-08-31 with total page 276 pages. Available in PDF, EPUB and Kindle. Book excerpt: The book “Integrated human exposure to air pollution” aimed to increase knowledge about human exposure in different micro-environments, or when citizens are performing specific tasks, to demonstrate methodologies for the understanding of pollution sources and their impact on indoor and ambient air quality, and, ultimately, to identify the most effective mitigation measures to decrease human exposure and protect public health. Taking advantage of the latest available tools, such as internet of things (IoT), low-cost sensors and a wide access to online platforms and apps by the citizens, new methodologies and approaches can be implemented to understand which factors can influence human exposure to air pollution. This knowledge, when made available to the citizens, along with the awareness of the impact of air pollution on human life and earth systems, can empower them to act, individually or collectively, to promote behavioral changes aiming to reduce pollutants’ emissions. Overall, this book gathers fourteen innovative studies that provide new insights regarding these important topics within the scope of human exposure to air pollution. A total of five main areas were discussed and explored within this book and, hopefully, can contribute to the advance of knowledge in this field.
Book Synopsis Human Exposure to Pollutants via Dermal Absorption and Inhalation by : Mihalis Lazaridis
Download or read book Human Exposure to Pollutants via Dermal Absorption and Inhalation written by Mihalis Lazaridis and published by Springer Science & Business Media. This book was released on 2010-03-22 with total page 313 pages. Available in PDF, EPUB and Kindle. Book excerpt: Estimates of the air pollution health impact play a crucial role in environmental protection. These estimates require accurate data on the pollutant exposure and dose to the population as well as the dose–response relationships to calculate the health impact. From an air quality manager’s perspective there is concern about the validity and accuracy of these calculations. There is a need for information and possible ways to adjust the assessment. One important topic for air quality managers is to understand the relative cont- bution of sources to the total exposure. These sources may be coming from both different outdoor sources from sectors such as transport, industry and energy ind- tries, and from a number of indoor sources, such as heating, ventilation and indoor activities as well as out-gassing from building material and furniture. Indoor air quality is now drawing the attention of policy makers. The basic right to, and importance of, healthy indoor air was emphasized by the World Health Organization as early as 2000 and several countries have described target conc- trations for various pollutants. The WHO Air Quality Guidelines 2005 rec- mended the development of specific guidelines for indoor air quality and these are expected to be published soon. Indoor air pollutants have not been as extensively monitored as outdoor air pollutants and the evidence base for contributions to health effects needs to be strengthened.
Book Synopsis Indoor Pollutants by : National Research Council
Download or read book Indoor Pollutants written by National Research Council and published by National Academies Press. This book was released on 1981-01-01 with total page 553 pages. Available in PDF, EPUB and Kindle. Book excerpt: Discusses pollution from tobacco smoke, radon and radon progeny, asbestos and other fibers, formaldehyde, indoor combustion, aeropathogens and allergens, consumer products, moisture, microwave radiation, ultraviolet radiation, odors, radioactivity, and dirt and discusses means of controlling or eliminating them.
Book Synopsis Air Pollution and Health Effects by : Srikanth S. Nadadur
Download or read book Air Pollution and Health Effects written by Srikanth S. Nadadur and published by Springer. This book was released on 2015-05-06 with total page 448 pages. Available in PDF, EPUB and Kindle. Book excerpt: Exposure to ambient air pollutants, both indoors and outdoors has been associated with the exacerbation and also in the etiology of diverse human diseases. This book offers an overview of our current understanding of air pollution health risks and how this knowledge is being used in the regulatory, therapeutic intervention measures to protect the public health and reduce the disease burden caused by acute and long-term exposure to air pollutants. Air Pollution and Health Effects provides readers with a comprehensive understanding of air pollution health risks, morbidity and the global disease burden, whilst also delivering critical review on state of the art research so as to gain a fundamental understanding of the biological mechanisms involved in the etiology of air pollution-induced diseases. Chapters range from pregnancy outcomes and pre-term birth, carcinogens in the ambient aerosol and the health consequences of indoor biomass burning. Special emphasis is placed on regional and local air pollution and its impact on global health along with suitable preventive and interventional measures. With contributions from international experts in the field this volume is a valuable guide for researchers and clinicians in toxicology, medicine and public health as well as industry and government regulatory scientists involved in health protection.
Book Synopsis Human Exposure Assessment for Airborne Pollutants by : National Research Council
Download or read book Human Exposure Assessment for Airborne Pollutants written by National Research Council and published by National Academies Press. This book was released on 1991-02-01 with total page 338 pages. Available in PDF, EPUB and Kindle. Book excerpt: Most people in the United States spend far more time indoors than outdoors. Yet, many air pollution regulations and risk assessments focus on outdoor air. These often overlook contact with harmful contaminants that may be at their most dangerous concentrations indoors. A new book from the National Research Council explores the need for strategies to address indoor and outdoor exposures and examines the methods and tools available for finding out where and when significant exposures occur. The volume includes: A conceptual framework and common terminology that investigators from different disciplines can use to make more accurate assessments of human exposure to airborne contaminants. An update of important developments in assessing exposure to airborne contaminants: ambient air sampling and physical chemical measurements, biological markers, questionnaires, time-activity diaries, and modeling. A series of examples of how exposure assessments have been applied-properly and improperly-to public health issues and how the committee's suggested framework can be brought into practice. This volume will provide important insights to improve risk assessment, risk management, pollution control, and regulatory programs.
Book Synopsis The Particulate Air Pollution Controversy by : Robert F. Phalen
Download or read book The Particulate Air Pollution Controversy written by Robert F. Phalen and published by Springer Science & Business Media. This book was released on 2007-05-08 with total page 135 pages. Available in PDF, EPUB and Kindle. Book excerpt: Small invisible particles in the urban air, especially those produced by human activities, have recently stimulated intense scrutiny, debate, regulation, and legal proceedings. The stakes are high, both with respect to health impacts and economic costs, and the methods used previously to resolve similar issues are no longer adequate. Everyone on earth inhales thousands to millions of particles in each breath, so if urban particulate air pollution—particulate matter (PM)—is significantly hazardous, the negative impact on health could be staggering. Yet the activities that generate PM, such as farming, manufacturing, mining, transportation, and generating electricity, are themselves essential to human health and welfare. Scientists, regulators, legislators, activists, judges, lawyers, journalists, and representatives of the business community are actively involved in addressing the question of what should be done. This complex issue presents opportunities for critically assessing the relevant knowledge and for adopting more rigorous approaches to this and similar problems. What is the PM controversy, and why is it a good case study for how science and public policy might better interface? The PM controversy is the sum of the frequently heated debates related to the potential health risks from urban PM.
Book Synopsis Clinical Handbook of Air Pollution-Related Diseases by : Fabio Capello
Download or read book Clinical Handbook of Air Pollution-Related Diseases written by Fabio Capello and published by Springer. This book was released on 2018-02-21 with total page 677 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book examines in detail the clinical implications of those diseases that either are primarily triggered by air pollution or represent direct consequences of air pollutants. The aim is to provide medical practitioners with practical solutions to issues in diagnosis and treatment while simultaneously furnishing other interested parties with crucial information on the field. The book introduces the concept that air pollution-related diseases constitute a new class of pathologies. A wide range of conditions mainly attributable to air pollution are discussed, covering different body systems and pollution impacts in subsets of the population. In addition to presenting state of the art overviews of clinical aspects, the book carefully examines the implications of current knowledge for social and public health strategies aimed at disease prevention and prophylaxis. The Clinical Handbook of Air Pollution-Related Diseases will greatly assist doctors and healthcare workers when dealing with the consequences of air pollution in their everyday practice and will provide researchers, industry, and policymakers with valuable facts and insights.
Book Synopsis Understanding Human Illness and Death Following Exposure to Particulate Matter Air Pollution by : Erin M. Tranfield
Download or read book Understanding Human Illness and Death Following Exposure to Particulate Matter Air Pollution written by Erin M. Tranfield and published by . This book was released on 2012 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Integrated Human Exposure to Air Pollution by : Nuno Canha
Download or read book Integrated Human Exposure to Air Pollution written by Nuno Canha and published by . This book was released on 2021 with total page 276 pages. Available in PDF, EPUB and Kindle. Book excerpt: The book “Integrated human exposure to air pollution” aimed to increase knowledge about human exposure in different micro-environments, or when citizens are performing specific tasks, to demonstrate methodologies for the understanding of pollution sources and their impact on indoor and ambient air quality, and, ultimately, to identify the most effective mitigation measures to decrease human exposure and protect public health. Taking advantage of the latest available tools, such as internet of things (IoT), low-cost sensors and a wide access to online platforms and apps by the citizens, new methodologies and approaches can be implemented to understand which factors can influence human exposure to air pollution. This knowledge, when made available to the citizens, along with the awareness of the impact of air pollution on human life and earth systems, can empower them to act, individually or collectively, to promote behavioral changes aiming to reduce pollutants' emissions. Overall, this book gathers fourteen innovative studies that provide new insights regarding these important topics within the scope of human exposure to air pollution. A total of five main areas were discussed and explored within this book and, hopefully, can contribute to the advance of knowledge in this field.
Book Synopsis A Dynamic Modeling for Forecasting of Air Pollution Effects on Human Health and Cost of Illness by : Dr. Nitin Kishore Saxena
Download or read book A Dynamic Modeling for Forecasting of Air Pollution Effects on Human Health and Cost of Illness written by Dr. Nitin Kishore Saxena and published by . This book was released on 2013 with total page 9 pages. Available in PDF, EPUB and Kindle. Book excerpt: The last decade, has resulted in sever environmental degradation due to increase in harmful pollutants which are emitted in the atmospheric. The pollutants have caused serious health related problems due to exposure to poor air quality such as respiratory symptoms or illness impaired cardiopulmonary function, reduction of lung function, and premature mortality. The intensified process of industrialization and urbanization in India in past decade has resulted in sever environmental degradation causing serious threat to the health of Indian citizens. This study attempts to understand the air pollution level in Agra city and its effects on human health in terms of economic cost. With the application of system dynamic model forecasting of the levels of air pollutants viz., SO2, NO2, PM10, & TSPM for future has been made. The study brings out the fact that the level of SO2 will be decrease and the level of TSPM and PM10, will increase rapidly. This model also shows that the sick population and economic cost will likely be doubled within the gap of just fifteen years.
Book Synopsis Introduction to Air Pollution Science by : Robert F. Phalen
Download or read book Introduction to Air Pollution Science written by Robert F. Phalen and published by Jones & Bartlett Publishers. This book was released on 2011-11-10 with total page 353 pages. Available in PDF, EPUB and Kindle. Book excerpt: This unique textbook examines the basic health and environmental issues associated with air pollution including the relevant toxicology and epidemiology. It provides a foundation for the sampling and analysis of air pollutants as well as an understanding of international air quality regulations. Written for upper-level undergraduate and introductory graduate courses in air pollution, the book is also a valuable desk reference for practicing professionals who need to have a broad understanding of the topic. Important Notice: the digital edition of this book is missing some of the images or content found in the physical edition.
Book Synopsis Human Exposure to Urban Vehicle Emissions by : Joshua Schulz Apte
Download or read book Human Exposure to Urban Vehicle Emissions written by Joshua Schulz Apte and published by . This book was released on 2013 with total page 178 pages. Available in PDF, EPUB and Kindle. Book excerpt: This dissertation investigates human exposure to vehicular air pollutant emissions in urban areas. Since resources for protecting human health from the adverse consequences of inadvertent environmental releases are constrained, it is often desirable to identify sources and settings in which emissions controls could lead to especially high human health benefits per unit effort. The three measurement and modeling studies that comprise this dissertation aim to contribute towards this goal by advancing a mechanistic understanding of the relationship between urban vehicle emissions and subsequent human exposures. Two key themes that permeate these investigations include the exposure consequences of vehicle emissions in low-income settings such as developing world cities, and the role of dynamic processes in influencing the emissions-to-exposure relationship for urban air pollutant sources. Chapter 1 introduces each of the dissertation chapters and provides context and background related to the broader themes motivating the investigation. In Chapter 2, I report on exposures to particulate matter (PM) in the megacity of New Delhi, India. Previous work has identified New Delhi as a hotspot for ambient PM pollution. To investigate the degree to which in-vehicle exposures can be represented by ambient fixed-site measurements in New Delhi, I undertook a multi-month field campaign in 2010. In-vehicle measurements focused on concentrations of fine particulate matter (PM2.5), black carbon (BC) and ultrafine particles (UFP, measured by particle number count, PN) inside the cabins of auto-rickshaws, a common type of unenclosed vehicle in South Asia. Supplemental measurements considered PM levels inside conventional (enclosed) automobiles. Contemporaneously with the in-vehicle measurements, I conducted routine ambient monitoring of PM2.5, BC and PN at a rooftop fixed site. In-vehicle particle concentrations measured during this field campaign were substantially elevated relative to the levels recorded at the ambient monitoring site. Geometric mean concentrations inside the auto-rickshaw, averaged over ~160 h of 1 Hz data, were 190 μg m−3 PM2.5, 42 μg m−3 BC, and 280 × 103 particles cm−3. These concentrations rank among the highest levels ever reported for routine transportation microenvironments. Short-duration peak concentrations (averaging time: 10 s), attributable to exhaust plumes of nearby vehicles, were greater than 300 μg m−3 for PM2.5, 85 μg m−3 for BC, and 650 × 103 particles cm−3 for PN. In-vehicle PM2.5 levels were 1.5× higher than the high ambient PM2.5 concentrations (geometric mean: 120 μg m−3) in Delhi. In-vehicle BC and PN levels were more substantially elevated above background levels (respectively 3.6× and 8.4×). The especially high degree of elevation for PN suggests that in-vehicle exposures might account for a large fraction of daily PN exposure for auto-rickshaw users. The in-vehicle amplification for PN is likely attributable to proximity to a major PN source (traffic emissions) as well as dynamic loss processes such as coagulation that may remove UFP from ambient air. A small subset of measurements collected inside conventional cars with open windows resulted in similar mean concentrations to contemporaneous measurements inside auto-rickshaws. In contrast, concentrations were somewhat lower inside automobiles with air conditioning, likely owing to dynamic in-vehicle particle removal mechanisms. Overall, this investigation concludes that in-vehicle exposures in New Delhi substantially exceed the high ambient background concentrations recorded at fixed sites. Chapter 3 presents a global analysis of the population exposure implications of urban vehicle emissions using the intake fraction (iF) metric. Intake fraction is a dimensionless parameter that represents the fraction of a source's emissions that are ultimately inhaled by all exposed individuals. In this chapter, I develop and apply a model to estimate iF for spatially distributed, ground-level emissions (e.g., from vehicles) in 3646 worldwide urban areas, each with year-2000 population > 100,000. This large dataset of cities accounts for ~ 2.0 billion people, roughly ~70% of the year-2000 urban population. The investigation develops the first-ever iF estimates for urban emissions in many regions outside of North America and Europe, including for numerous megacities for which iF data did not previously exist. In particular, Chapter 3 considers the intraurban iF for each of the cities in this dataset, which accounts for the inhalation exposure to an urban area's emissions that occurs within that same city. Base-case model runs consider an archetypal primary, conserved, non-reactive pollutant. Sensitivity scenarios consider primary pollutants with first-order decay. These broad classifications are representative of many health-relevant pollutants emitted by vehicles and other urban sources. Moreover, they provide a point of comparison for understanding the exposure implications of non-conserved and secondary pollutants, which are explored in more detail in Chapter 4. For conserved primary pollutants, population-weighted median, mean, and interquartile range iF values are 26, 39, and 14 - 52 ppm, respectively, where 1 ppm signifies 1 g inhaled per tonne emitted. The global mean urban iF determined here is roughly twice as large as previous estimates for cities in the United States and Europe, owing primarily to the inclusion of cities with higher iF located outside of these two regions. Intake fractions vary among cities owing to differences in population size, population density, and meteorology. Sorting by size, population-weighted mean iF values are 65, 35, and 15 ppm, respectively, for cities with populations larger than 3 million, 0.6 - 3 million, and 0.1 - 0.6 million. For the 20 worldwide megacities in the dataset, the population-weighted mean intraurban iF is 83 ppm. Overall, mean iF values are greatest in Asia and lowest in land-rich high-income regions, owing primarily to differing patterns in urban form between these two regions. Among the 10 countries with the largest urban populations, population-weighted mean intraurban iF varies by a factor of 3. Intake fraction results for individual cities are predicted well by a parsimonious regression model that incorporates metrics of urban land area, population density, and meteorology. Chapter 4 extends the concept of intake fraction to incorporate semivolatile organic emissions. The analysis emphasizes the consequences of these emissions for population exposure to organic particulate matter, which is a major constituent in both vehicle exhaust and ambient urban air. Organic aerosols (OA) blur traditional notions of primary and secondary pollutants owing to dynamic exchange of material between the vapor and particle phases. Dilution of fresh organic PM emissions (primary organic aerosol, POA) with ambient air typically causes a profound shift of material from particle to vapor phase. Relatively more volatile vapor-phase material is then "aged" into lower-volatility products over its residence time in a regional airshed via oxidation reactions initiated by photochemically produced radicals (e.g., the hydroxyl radical OH). In turn, these lower volatility products oxidized from evaporated emissions then condense to form quasi-secondary particles that make up the so-called oxidized primary organic aerosol (OPOA). In this analysis, I update the definition of intake fraction to accommodate the cumulative contributions of population exposure to primary and quasi-secondary organic particles (i.e., POA and OPOA) as well as vapor-phase material to the overall intake fraction for semivolatile organic emissions. As in Chapter 3, the primary emphasis of the analysis is on vehicles and other urban, ground level emissions sources. Because photochemical aging at the regional scale is the major mechanism for converting evaporated POA material into OPOA, I develop and employ a nested multi-compartment mechanistic model to consider exposures at the urban, periurban and regional scales with a 400-km domain. Base-case model simulations consider an archetypal medium-sized US city (population 1.5 M); alternative cases include a model of iF for a global megacity (population 12 M). Key transformation processes for semivolatile emissions (e.g., dilution, partitioning, aging) are represented using the Volatility Basis Set (VBS) framework. A major goal of the modeling exercise is to contrast the magnitude and spatial distribution of iF for semivolatile organic emissions with patterns in iF for nonreactive pollutants. For urban emissions of non-reactive particles, ~75% of domain-wide population intake occurs in the same urban compartment as emissions. In contrast, for semivolatile emissions, spatial patterns and gas-particle partitioning of intake depend substantially on emissions volatility. Low volatility organic emissions in urban areas produce predominantly intraurban, particle-phase exposures (similar to inert pollutants). As volatility of material emitted in urban areas increases, three key trends emerge that reduce particle-phase iF: (1) the overall proportion of population exposure that takes place in the particle phase decreases and the proportion of exposure in the gas phase increases, (2) photochemically aged material (OPOA) accounts for a larger fraction of particle-phase population intake, and (3) regional-scale exposures account for the predominant fraction of organic aerosol exposure attributable to urban precursor emissions. Since higher volatility compounds account for a large fraction of motor vehicle emissions, the overall iF for organic particles attributable to urban semivolatile organic emissions is lower.
Book Synopsis Human Exposure to Acidic Air Pollutants by : Michael Brauer
Download or read book Human Exposure to Acidic Air Pollutants written by Michael Brauer and published by . This book was released on 1990 with total page 288 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis WHO Guidelines for Indoor Air Quality by :
Download or read book WHO Guidelines for Indoor Air Quality written by and published by World Health Organization. This book was released on 2010 with total page 488 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book presents WHO guidelines for the protection of public health from risks due to a number of chemicals commonly present in indoor air. The substances considered in this review, i.e. benzene, carbon monoxide, formaldehyde, naphthalene, nitrogen dioxide, polycyclic aromatic hydrocarbons (especially benzo[a]pyrene), radon, trichloroethylene and tetrachloroethylene, have indoor sources, are known in respect of their hazardousness to health and are often found indoors in concentrations of health concern. The guidelines are targeted at public health professionals involved in preventing health risks of environmental exposures, as well as specialists and authorities involved in the design and use of buildings, indoor materials and products. They provide a scientific basis for legally enforceable standards.
Author :National Academies of Sciences, Engineering, and Medicine Publisher :National Academies Press ISBN 13 :030945252X Total Pages :159 pages Book Rating :4.3/5 (94 download)
Book Synopsis Controlled Human Inhalation-Exposure Studies at EPA by : National Academies of Sciences, Engineering, and Medicine
Download or read book Controlled Human Inhalation-Exposure Studies at EPA written by National Academies of Sciences, Engineering, and Medicine and published by National Academies Press. This book was released on 2017-04-10 with total page 159 pages. Available in PDF, EPUB and Kindle. Book excerpt: The U.S. Environmental Protection Agency (EPA) has a mission and regulatory responsibility to protect human health and the environment. EPA's pursuit of that goal includes a variety of research activities involving human subjects, such as epidemiologic studies and surveys. Those research activities also involve studies of individuals who volunteer to be exposed to air pollutants intentionally in controlled laboratory settings so that measurements can be made of transient and reversible biomarker or physiologic responses to those exposures that can indicate pathways of toxicity and mechanisms of air-pollution responses. The results of those controlled human inhalation exposure (CHIE) studies, also referred to as human clinical studies or human challenge studies, are used to inform policy decisions and help establish or revise standards to protect public health and improve air quality. Controlled Human Inhalation-Exposure Studies at EPA addresses scientific issues and provides guidance on the conduct of CHIE studies. This report assesses the utility of CHIE studies to inform and reduce uncertainties in setting air-pollution standards to protect public health and assess whether continuation of such studies is warranted. It also evaluates the potential health risks to test subjects who participated in recent studies of air pollutants at EPA's clinical research facility.
