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101.
Frank Riedewald Ian Povey Killian Barton Liam Lewis Silvia Santos Maria O'Mahoney Maria Sousa-Gallagher 《化学,工程师,技术》2023,95(6):944-949
Tantalum is the crucial metal of surface-mounted (SMD) tantalum capacitors. Some 50 % of the tantalum mined is consumed in its manufacture, making waste printed circuit boards (WPCBs) an excellent source of secondary tantalum. Yet, its recycling rate is less than 1 %. This paper proposes liberating SMD capacitors from WPCBs by treating them with molten metal or salt. For both processes, the epoxy encapsulation of the capacitors did not disengage from the tantalum core. Furthermore, the molten metal process appears superior to the molten salt one. The tantalum capacitors exit the pyrolysis chamber without salt adhering to them. 相似文献
102.
103.
Concentration effects in water condensation systems, such as used in the water-based condensation particle counter, are explored through numeric modeling and direct measurements. Modeling shows that the condensation heat release and vapor depletion associated with particle activation and growth lowers the peak supersaturation. At higher number concentrations, the diameter of the droplets formed is smaller, and the threshold particle size for activation is higher. This occurs in both cylindrical and parallel plate geometries. For water-based systems, we find that condensational heat release is more important than vapor depletion. We also find that concentration effects can be minimized through use of smaller tube diameters, or more closely spaced parallel plates. Experimental measurements of droplet diameter confirm modeling results. © 2013 American Association for Aerosol Research 相似文献
104.
This paper describes theoretical and experimental studies undertaken in connection with the problem of sampling carbon fiber aerosols in an ambient environment. Calculations indicate that carbon fiber aerosols with an 8-μm fiber diameter and a density of 1.8 g/cm3 can be sampled by a sampler designed to collect particles in the 10–30–μm aerodynamic diameter range if fibers up to a few millimeters in length are to be collected. An approach is then described in which carbon fiber aerosols are collected in the impactor of the inlet of a dichotomous sampler. Experimental data are presented showing that the impaction characteristics of the carbon fiber aerosol can be predicted with a reasonable degree of accuracy by approximating the shape of the fibers by a prolate ellipsoid. 相似文献
105.
Susanne V. Hering Nathan M. Kreisberg Mark R. Stolzenburg Gregory S. Lewis 《Aerosol science and technology》2013,47(1):86-96
As part of the California Regional PM 2.5 and PM 10 Air Quality Study (CRPAQS) particle size distributions were measured simultaneously at two sites; the city of Fresno and the agricultural site of Angiola. Reported here are data obtained by scanning mobility analysis over the size range from 10 nm to 400 nm for the intensive study period from December 1, 2000 through February 6, 2001. These high time resolution data show variability in the character of the distributions, as well as the in the total number concentrations. The most pronounced feature of the data set is a consistent, nighttime maxima in particle number concentrations with a modal diameter near 80 nm during the evening hours at the urban Fresno site. Although these maxima are correlated with CO, NO, and black carbon, the particle size is larger than the 30–40 nm modal diameters observed for traffic aerosols during the commute hours, and is attributed to a non-vehicle source. At the agricultural site, the morning maxima particle number concentration coincides with the maxima in NO concentration, but often precedes the morning maxima in black carbon. Values for the geometric mean particle diameter varied from day to day, but are correlated between the two sites, with somewhat larger particle sizes at Angiola during periods of stagnation. 相似文献
106.
Arthur J. Sedlacek III Ernie R. Lewis Timothy B. Onasch Andrew T. Lambe Paul Davidovits 《Aerosol science and technology》2013,47(10):872-885
An important source of uncertainty in radiative forcing by absorbing aerosol particles is the uncertainty in their morphologies (i.e., the location of the absorbing substance on/in the particles). To examine the effects of particle morphology on the response of an individual black carbon-containing particle in a Single-Particle Soot Photometer (SP2), a series of experiments was conducted to investigate black carbon-containing particles of known morphology using Regal black (RB), a proxy for collapsed soot, as the light-absorbing substance. Particles were formed by coagulation of RB with either a solid substance (sodium chloride or ammonium sulfate) or a liquid substance (dioctyl sebacate), and by condensation with dioctyl sebacate, the latter experiment forming particles in a core-shell configuration. Each particle type experienced fragmentation (observed as negative lagtimes), and each yielded similar lagtime responses in some instances, confounding attempts to differentiate particle morphology using current SP2 lagtime analysis. SP2 operating conditions, specifically laser power and sample flow rate, which in turn affect the particle heating and dissipation rates, play an important role in the behavior of particles in the SP2, including probability of fragmentation. This behavior also depended on the morphology of the particles and on the thermochemical properties of the non-RB substance. Although these influences cannot currently be unambiguously separated, the SP2 analysis may still provide useful information on particle mixing states and black carbon particle sources.Copyright 2015 American Association for Aerosol Research 相似文献
107.
Furnace sorbent injection (FSI) is used to remove SO2 formed during coal combustion by injecting sorbent into the high temperature zone of a furnace above the fireball. FSI is cost effective for older coal-fired boilers, especially when space or capital budgets are limited. To optimize the design and performance of FSI, an SO2/sorbent modeling scheme that simultaneously considers calcination (or dehydration), sintering, and sulfation has been developed and implemented. It is coupled with a three-dimensional combustion model based on computational fluid dynamics to determine the most desirable locations for sorbent injection and to optimize the amount of sorbent needed to achieve a targeted SO2 removal efficiency. A sensitivity analysis was conducted to determine the effect of flue gas temperature, particle diameter, and SO2 concentration on the extent of sulfation. This SO2/sorbent sub-model was applied to a 126-MW front-wall fired boiler firing eastern bituminous coal. The SO2 removal efficiencies predicted by the model agreed well with those measured in the field. The modeling results indicated that sorbent injected directly into the furnace through boosted over-fired air ports is more effective at removing SO2, due to longer residence time and better mixing, relative to ports higher in the furnace with poor mixing. This modeling approach is optimized for full-furnace application to facilitate the design process. 相似文献
108.
Lodgepole pines, Pinus contorta Douglas ex Louden var. latifolia Engelm. ex S. Watson, are encountering increased abiotic stress and pest activity due to recent increases in temperature
and changes in precipitation throughout their range. This tree species counters these threats by producing secondary metabolites,
including phenolics and terpenoids. We examined foliar levels of lignin, soluble phenolics, monoterpenoids, sesquiterpenoids,
and diterpenoids in 12 stands in British Columbia, Canada. We used these data to assess associations among foliar secondary
metabolite levels and ecosystem, geographic, and climatic variables. Regressions were also performed to observe which combinations
of variables best explained secondary metabolite variance. Stands of P. c. latifolia in the Coastal Western Hemlock and Interior Cedar/Hemlock biogeoclimatic zones had consistently greater foliar levels of
almost all measured secondary metabolites than did other stands. Lignin was present in greater amounts in Boreal White/Black
Spruce ecosystem (i.e., northern) stands than in southern stands, suggesting a role for this metabolite in pine survival in
the boreal forest. Attempts to develop regression models with geographic and climatic variables to explain foliar secondary
metabolite levels resulted in multiple models with similar predictive capability. Since foliar secondary metabolite levels
appeared to vary most between stand ecosystem types and not as much due to geographic and climatic variables, metabolic profiles
appeared best matched to the stress levels within local environments. It is unknown if differences in secondary metabolite
levels are the result of genetic adaptation or phenotypic plasticity, but results from this and other studies suggest that
both are important. These results are interpreted in light of ongoing efforts to assist in the migration of certain populations
of P. c. latifolia northward in an effort to counter predicted effects of climate change. 相似文献
109.
An accurate and tractable model of solubility is a pre-requisite for any careful study of precipitation. Reviewing the abundant literature on the sodium aluminate solutions and Bayer Liquor, the authors point out the need for a new model for the apparent solubility of aluminium in actual Bayer Liquors and propose such a model, based on the well established Wesolowski's expression for the infinite dilution solubility and extended Debye–Hückel expression including a large empirical b I term for the “activity coefficient effect”. They suggest a chemical interpretation for this feature. 相似文献
110.
Understanding the effects of allelopathic plant chemicals on soil microorganisms is critical to understanding their ecological
roles and importance in exotic plant invasion. Centaurea stoebe Lam. (spotted knapweed), an aggressive invasive weed in North America, secretes a racemic mixture of (±)-catechin as a root
exudate. This enantiomeric, polyphenolic compound has been reported to have allelopathic effects on surrounding flora and
microflora. To better understand how catechin affects microbial communities in the root zone of spotted knapweed, we assessed
its impact on the total culturable bacterial component and numerous individual bacterial populations from Romanian (native
range) and Montana (invaded range) soils. Catechin suppressed total culturable count numbers from the bacterial community
and inhibited growth of some, but not all, soil bacterial populations tested. The native soil bacterial community was significantly
more resistant to inhibitory effects of catechin than either the invaded or non-invaded soils. We further show that the inhibitory
effect of catechin on nine different soil bacterial strains from seven genera was reversible, demonstrating that it acts via
a bacteriostatic rather than bactericidal mechanism. These findings suggest that catechin might affect bacterial community
composition and activity in the root zone. 相似文献