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Development and use of a passive technique for measuring nitrogen dioxide in the background atmosphereGair, Amanda J. January 1989 (has links)
No description available.
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Assessment of suspended dust from pipe rattling operationsPark, Ju-Myon 30 October 2006 (has links)
Six types of aerosol samplers were evaluated experimentally in a test chamber
with polydisperse fly ash. The Andersen sampler overestimates the mass of small
particles due to particle bounce between stages and therefore provides a conservative
estimate of respirable particulate mass and thoracic particulate mass. The TSP sampler
provides an unbiased estimate of total particulate mass. TSP/CCM provides no
information below ESD 2 õm and therefore underestimates respirable particulate mass.
The PM10 sampler provides a reasonable estimate of the thoracic particulate fraction.
The RespiCon sampler provides an unbiased estimate of respirable, thoracic, and
inhalable fractions. DustTrak and SidePak monitors provide relative particle
concentrations instead of absolute concentrations because it could not be calibrated for
absolute particle concentrations with varying particle shape, composition, and density.
Six sampler technologies were used to evaluate airborne dust concentrations
released from oilfield pipe rattling operations. The task sampled was the removal of
scale deposited on the inner wall of the pipe before it was removed from service in a
producing well. The measured mass concentrations of the aerosol samplers show that a Gaussian
plume model is applicable to the data of pipe rattling operations for finding an
attainment area. It is estimated that workers who remain within 1 m of the machine
centerline and directly downwind have an 8-hour TWA exposure opportunity of (13.3 ñ
9.7) mg/m3 for the Mud Lake pipe scale and (11.4 ñ 9.7) mg/m3 for the Lake Sand pipe
scale at 95 % confidence. At distances more than 4 m downwind from the machine
centerline, dust concentrations are below the TWA-TLV of 10 mg/m3 for the worker in
both scales. At positions crosswind or upwind from the machine centerline there is no
measurable exposure. Available data suggest that the attainment area for the public
starts at about 9 m downwind from the machine centerline in both scales, as 24 hour
average concentrations at these distances are smaller than the 0.15 mg/m3, the NAAQS
for unrestricted public access. The PSD of the suspended plume is dominated by
particles smaller than ESD 50 õm.
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Ammonia sampling using Ogawa passive samplersTate, Paul, January 2002 (has links)
Thesis (M.A.)--University of South Florida, 2002. / Title from PDF of title page. Includes bibliographical references.
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The air motor as a cloud generatorAdams, Glenn Nelson January 1950 (has links)
As a result of the current interest in theories designed to explain the processes whereby precipitation originates in clouds and, if possible, to devise methods of causing or initiating precipitation at times or places more desirable than those chosen by Nature, and particularly in view of certain assumptions made in the formulation of some of these theories, experiments are in progress to study the behaviour of water particles in a region of moist air and small water droplets such as is found in a cloud. For such experiments, some means of producing a cloud, preferably of controlled characteristics, in the laboratory is needed.
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The air motor as a cloud generatorAdams, Glenn N. January 1950 (has links)
No description available.
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THE DESIGN AND APPLICATION OF A POLAR NEPHELOMETER FOR AEROSOL STUDIESHansen, Mark Zabel, 1948- January 1977 (has links)
No description available.
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Characterizing the origin and long-range transport behavior of persistent organic pollutants in the North American atmospheric environment using passive samplers.Shen, Li. January 2004 (has links)
Thesis (Ph. D.)--University of Toronto, 2004. / Adviser: Frank Wania. Includes bibliographical references (p. 154-163).
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A study of air flow in a network of pipes used in aspirated smoke detectorsSingh, Rohitendra Kumar. January 2009 (has links)
Thesis (M. Eng.)--Victoria University (Melbourne, Vic.), 2009. / Submitted in fulfilment of the requirements for the degree of Master of Engineering in Mechanical Engineering. Includes bibliographical references.
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Passive sampling and distribution of DDT in air / Lloyd Shorai PisaPisa, Lloyd Shorai January 2013 (has links)
Dichloro-diphenyl-trichlorethane (DDT) is a chemical used in malaria control through indoor residual spraying (IRS) and has saved numerous lives in the past six decades. DDT use is restricted/banned under the Stockholm Convention on Persistent Organic Pollutants. Passive air sampling using polyurethane foam was conducted in South Africa to evaluate the presence and trends of DDT and its metabolites. Three sampling sites were used, namely, Barberspan Nature Reserve (rural agricultural), Vanderbijlpark (urban industrial) and Molopo Nature Reserve (isolated nature reserve). Sampling was conducted for a period of one year in 2008. Back trajectories from the three sampling sites were generated using HYSPILT to determine the sources of DDT metabolites to the sampling areas. Forward trajectories were also generated to determine the movement, distribution, and fate of DDT from the areas under Indoor residual spray of DDT for malaria control in South Africa and Swaziland. Chemical analysis was conducted by the RECETOX (Mazaryk University) in the Czech Republic. DDT metabolites (o,p’-DDE, p’p’-DDE, o.p’-DDD, p,p’-DDD, o,p’-DDT p,p’-DDT) were analysed using a GC-ECD (HP 5890). Vanderbijlpark had the highest concentrations of DDT metabolites throughout the year. Barberspan had the second highest concentration and Molopo the least. Seasonal changes in concentration were much the same at the three sites. %p,p’-DDT of ΣDDT is consistent with IRS spraying months in South Africa and Swaziland. A combinations of backward and forward trajectories, together with the temporal pattern of change of the %p,p’-DDT of ΣDDT support the deduction that DDT sampled from the three study sites (to some degree) came from IRS areas in South Africa and Swaziland. The presence of DDT in Molopo Nature Reserve and Barberspan is evidence of long-range transportation over dry semi-desert areas. Back-trajectories indicate the possible source of DDT were the IRS areas in the provinces of Limpopo, Mpumalanga, and KwaZulu-Natal. Some air masses to the sampling sites came from the sprayed areas. The forward trajectories also revealed that the DDT sprayed during IRS could undergo LRT. The DDT metabolites were able to travel to neighbouring countries such as Mozambique, Namibia, Zimbabwe and Botswana. / MSc (Environmental Sciences), North-West University, Potchefstroom Campus, 2013
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Passive sampling and distribution of DDT in air / Lloyd Shorai PisaPisa, Lloyd Shorai January 2013 (has links)
Dichloro-diphenyl-trichlorethane (DDT) is a chemical used in malaria control through indoor residual spraying (IRS) and has saved numerous lives in the past six decades. DDT use is restricted/banned under the Stockholm Convention on Persistent Organic Pollutants. Passive air sampling using polyurethane foam was conducted in South Africa to evaluate the presence and trends of DDT and its metabolites. Three sampling sites were used, namely, Barberspan Nature Reserve (rural agricultural), Vanderbijlpark (urban industrial) and Molopo Nature Reserve (isolated nature reserve). Sampling was conducted for a period of one year in 2008. Back trajectories from the three sampling sites were generated using HYSPILT to determine the sources of DDT metabolites to the sampling areas. Forward trajectories were also generated to determine the movement, distribution, and fate of DDT from the areas under Indoor residual spray of DDT for malaria control in South Africa and Swaziland. Chemical analysis was conducted by the RECETOX (Mazaryk University) in the Czech Republic. DDT metabolites (o,p’-DDE, p’p’-DDE, o.p’-DDD, p,p’-DDD, o,p’-DDT p,p’-DDT) were analysed using a GC-ECD (HP 5890). Vanderbijlpark had the highest concentrations of DDT metabolites throughout the year. Barberspan had the second highest concentration and Molopo the least. Seasonal changes in concentration were much the same at the three sites. %p,p’-DDT of ΣDDT is consistent with IRS spraying months in South Africa and Swaziland. A combinations of backward and forward trajectories, together with the temporal pattern of change of the %p,p’-DDT of ΣDDT support the deduction that DDT sampled from the three study sites (to some degree) came from IRS areas in South Africa and Swaziland. The presence of DDT in Molopo Nature Reserve and Barberspan is evidence of long-range transportation over dry semi-desert areas. Back-trajectories indicate the possible source of DDT were the IRS areas in the provinces of Limpopo, Mpumalanga, and KwaZulu-Natal. Some air masses to the sampling sites came from the sprayed areas. The forward trajectories also revealed that the DDT sprayed during IRS could undergo LRT. The DDT metabolites were able to travel to neighbouring countries such as Mozambique, Namibia, Zimbabwe and Botswana. / MSc (Environmental Sciences), North-West University, Potchefstroom Campus, 2013
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