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651.
Sharon E. Borglin Terry C. Hazen Curtis M. Oldenburg Peter T. Zawislanski 《Journal of the Air & Waste Management Association (1995)》2013,63(7):815-822
Abstract To increase the operating lifetime of landfills and to lower leachate treatment costs, an increasing number of municipal solid waste (MSW) landfills are being managed as either aerobic or anaerobic bioreactors. Landfill gas composition, respiration rates, and subsidence were measured for 400 days in 200-L tanks filled with fresh waste materials to compare the relative effectiveness of the two treatments. Tanks were prepared to provide the following conditions: (1) air injection and leachate recirculation (aerobic), (2) leachate recirculation (anaerobic), and (3) no treatment (anaerobic). Respiration tests on the aerobic wet tank showed a steady decrease in oxygen consumption rates from 1.3 mol/day at 20 days to 0.1 mol/day at 400 days. Aerobic wet tanks produced, on average, 6 mol of carbon dioxide (CO2)/kg of MSW as compared with anaerobic wet tanks, which produced 2.2 mol methane/kg of MSW and 2.0 mol CO2/kg methane. Over the test period, the aerobic tanks settled on average 35%, anaerobic tanks settled 21.7%, and the no-treatment tank settled 7.5%, equivalent to overall mass loss in the corresponding reactors. Aerobic tanks reduced stabilization time and produced negligible odor compared with anaerobic tanks, possibly because of the 2 orders of magnitude lower leachate ammonia levels in the aerobic tank. Both treatment regimes provide the opportunity for disposal and remediation of liquid waste. 相似文献
652.
Federico M. San Martini J. Jason West Benjamin de Foy Luisa T. Molina Mario J. Molina Gustavo Sosa 《Journal of the Air & Waste Management Association (1995)》2013,63(6):803-815
Abstract Based on data from the 1997 Investigación sobre Materia Particulada y Deterioro Atmosférico-Aerosol and Visibility Evaluation Research (IMADA-EVER) campaign and the inorganic aerosol model ISORROPIA, the response of inorganic aerosols to changes in precursor concentrations was calculated. The aerosol behavior is dominated by the abundance of ammonia and thus, changes in ammonia concentration are expected to have a small effect on particle concentrations. Changes in sulfate and nitrate are expected to lead to proportional reductions in inorganic fine particulate matter (PM2.5). Comparing the predictions of ISORROPIA with the observations, the lowest bias and error are achieved when the aerosols are assumed to be in the efflorescence branch. Including crustal species reduces the bias and error for nitrate but does not improve overall model performance. The estimated response of inorganic PM2.5 to changes in precursor concentrations is affected by the inclusion of crustal species in some cases, although average responses are comparable with and without crustal species. Observed concentrations of particle chloride suggest that gas phase concentrations of hydrogen chloride may not be negligible, and future measurement campaigns should include observations to test this hypothesis. Our ability to model aerosol behavior in Mexico City and, thus, design control strategies, is constrained primarily by a lack of observations of gas phase precursors. Future campaigns should focus in particular on better understanding the temporal and spatial distribution of ammonia concentrations. In addition, gas phase observations of nitric acid are needed, and a measure of particle water content will allow stable versus metastable aerosol behavior to be distinguished. 相似文献
653.
James W. Boylan Mehmet T. Odman James G. Wilkinson Armistead G. Russell Kevin G. Doty William B. Norris 《Journal of the Air & Waste Management Association (1995)》2013,63(7):1019-1030
Abstract Recently, a comprehensive air quality modeling system was developed as part of the Southern Appalachians Mountains Initiative (SAMI) with the ability to simulate meteorology, emissions, ozone, size- and composition-resolved particulate matter, and pollutant deposition fluxes. As part of SAMI, the RAMS/EMS-95/URM-1ATM modeling system was used to evaluate potential emission control strategies to reduce atmospheric pollutant levels at Class I areas located in the Southern Appalachians Mountains. This article discusses the details of the ozone model performance and the methodology that was used to scale discrete episodic pollutant levels to seasonal and annual averages. The daily mean normalized bias and error for 1-hr and 8-hr ozone were within U.S. Environment Protection Agency guidance criteria for urban-scale modeling. The model typically showed a systematic overestimation for low ozone levels and an underestimation for high levels. Because SAMI was primarily interested in simulating the growing season ozone levels in Class I areas, daily and seasonal cumulative ozone exposure, as characterized by the W126 index, were also evaluated. The daily ozone W126 performance was not as good as the hourly ozone performance; however, the seasonal ozone W126 scaled up from daily values was within 17% of the observations at two typical Class I areas of the SAMI region. The overall ozone performance of the model was deemed acceptable for the purposes of SAMI’s assessment. 相似文献
654.
Ray E. Carter Jr. Dennis D. Lane Glen A. Marotz Charles T. Chaffin Tim L. Marshall Melissa Tucker 《Journal of the Air & Waste Management Association (1995)》2013,63(4):480-488
A method of predicting point and path-averaged ambient air VOC concentrations is described. This method was developed for the case of a plume generated from a single point source, and is based on the relationship between wind directional frequency and concentration. One-minute means of wind direction and wind speed were used as inputs to a Gaussian dispersion model to develop this relationship. Both FTIR spectrometry and a whole-air sampling method were used to monitor VOC plumes during simulated field tests. One test set was also conducted using only whole-air samplers deployed in a closely-spaced network, thus providing an evaluation of the prediction technique free of any bias that might exist between the two analytical methods. Correlations between observed point concentrations and wind directional frequencies were significant at the 0.05 level in most cases. Predicted path-integrated concentrations, based on observed point concentrations and meteorological data, were strongly correlated with observed values. Predicted point concentrations, based on observed path-integrated concentrations and meteorological data, accurately reflected the location and magnitude of the highest concentrations from each test, as well as the shape of the concentration-versus-crosswind distance curve. 相似文献
655.
Michael J. McFarland Steve L. Rasmussen Daniel A. Stone Glenn R. Palmer Joseph D. Wander 《Journal of the Air & Waste Management Association (1995)》2013,63(9):1260-1266
Abstract U.S. Environmental Protection Agency (EPA) Emission Measurement Center in conjunction with EPA Regions VI and VIII, the state of Utah, and the U.S. Department of Defense have conducted a series of long-term pilot and field tests to determine the accuracy and reliability of a visible opacity monitoring system consisting of a conventional digital camera and a separate computer software application for plume opacity determination. This technology, known as the Digital Opacity Compliance System (DOCS), has been successfully demonstrated at EPA-sponsored Method-9 “smoke schools,” as well as at a number of government and commercially operated industrial facilities. Results from the current DOCS regulatory pilot study demonstrated that, under regulatory enforcement conditions, the average difference in opacity measurement between the DOCS technology and EPA Reference Method 9 (Method 9) was 1.12%. This opacity difference, which was computed from the evaluation of 241 regulated air sources, was found to be statistically significant at the 99% confidence level. In evaluating only those sources for which a nonzero visible opacity level was recorded, the average difference in opacity measurement between the DOCS technology and Method 9 was 1.20%. These results suggest that the two opacity measurement methods are essentially equivalent when measuring the opacity of visible emissions. Given the costs and technical limitations associated with use of Method 9, there is a recognized need to develop accurate, reproducible, and scientifically defensible alternatives to the use of human observers. The use of digital imaging/processing brings current technology to bear on this important regulatory issue. Digital technology offers increased accuracy, a permanent record of measurement events, lower costs, and a scientifically defensible approach for opacity determination. 相似文献
656.
Michael T. Moss Howard M. Segal 《Journal of the Air & Waste Management Association (1995)》2013,63(6):787-790
A new complex source microcomputer model has been developed for use at civil airports and Air Force bases. This paper describes both the key features of this model and its application in evaluating the air quality impact of new construction projects at three airports: one in the United States and two in Canada. The single EDMS model replaces the numerous models previously required to assess the air quality impact of pollution sources at airports. EDMS also employs a commercial data base to reduce the time and manpower required to accurately assess and document the air quality impact of airfield operations. On July 20, 1993, the U.S. Environmental Protection Agency (EPA) issued the final rule (Federal Register, 7/20/93, page 38816) to add new models to the Guideline on Air Quality Models. At that time EDMS was incorporated into the Guideline as an Appendix A model. 相似文献
657.
O'Donnell TK 《Environmental management》2012,49(1):267-284
Continued public support for U.S. taxpayer funded programs aimed at reducing agricultural pollutants depends on clear demonstrations
of water quality improvements. The objective of this research was to determine if implementation of agricultural best management
practices (BMPs) in the Goodwater Creek Experimental Watershed (GCEW) resulted in changes to atrazine and nitrate (NO3–N) loads during storm events. An additional objective was to estimate future monitoring periods necessary to detect a 5,
10, 20, and 25% reduction in atrazine and NO3–N event load. The GCEW is a 73 km2 watershed located in northcentral Missouri, USA. Linear regressions and Akaike Information Criteria were used to determine
if reductions in atrazine and NO3–N event loads occurred as BMPs were implemented. No effects due to any BMP type were indicated for the period of record.
Further investigation of event sampling from the long-term GCEW monitoring program indicated errors in atrazine load calculations
may be possible due to pre-existing minimum threshold levels used to trigger autosampling and sample compositing. Variation
of event loads was better explained by linear regressions for NO3–N than for atrazine. Decommissioning of upstream monitoring stations during the study period represented a missed opportunity
to further explain variation of event loads at the watershed outlet. Atrazine requires approximately twice the monitoring
period relative to NO3–N to detect future reductions in event load. Appropriate matching of pollutant transport mechanisms with autosampling protocols
remains a critical information need when setting up or adapting watershed monitoring networks aimed at detecting watershed-scale
BMP effects. 相似文献
658.
Santoro R Jucker T Prisco I Carboni M Battisti C Acosta AT 《Environmental management》2012,49(3):534-542
Sandy coastlines are sensitive ecosystems where human activities can have considerable negative impacts. In particular, trampling
by beach visitors is a disturbance that affects dune vegetation both at the species and community level. In this study we
assess the effects of the limitation of human trampling on dune vegetation in a coastal protected area of Central Italy. We
compare plant species diversity in two recently fenced sectors with that of an unfenced area (and therefore subject to human
trampling) using rarefaction curves and a diversity/dominance approach during a two year study period. Our results indicate
that limiting human trampling seems to be a key factor in driving changes in the plant diversity of dune systems. In 2007
the regression lines of species abundance as a function of rank showed steep slopes and high Y-intercept values in all sectors, indicating a comparable level of stress and dominance across the entire study site. On the
contrary, in 2009 the regression lines of the two fenced sectors clearly diverge from that of the open sector, showing less
steep slopes. This change in the slopes of the tendency lines, evidenced by the diversity/dominance diagrams and related to
an increase in species diversity, suggests the recovery of plant communities in the two fences between 2007 and 2009. In general,
plant communities subject to trampling tended to be poorer in species and less structured, since only dominant and tolerant
plant species persisted. Furthermore, limiting trampling appears to have produced positive changes in the dune vegetation
assemblage after a period of only two years. These results are encouraging for the management of coastal dune systems. They
highlight how a simple and cost-effective management strategy, based on passive recovery conservation measures (i.e., fence
building), can be a quick (1–2 years) and effective method for improving and safeguarding the diversity of dune plant communities. 相似文献
659.
Energy Systems Theory (EST) provides a framework for understanding and interpreting sustainability. EST implies that "what is sustainable" for a system at any given level of organization is determined by the cycles of change originating in the next larger system and within the system of concern. The pulsing paradigm explains the ubiquitous cycles of change that apparently govern ecosystems, rather than succession to a steady state that is then sustainable. Therefore, to make robust decisions among environmental policies and alternatives, decision-makers need to know where their system resides in the cycles of change that govern it. This theory was examined by performing an emergy evaluation of the sustainability of a regional system, the San Luis Basin (SLB), CO. By 1980, the SLB contained a climax stage agricultural system with well-developed crop and livestock production along with food and animal waste processing. The SLB is also a hinterland in that it exports raw materials and primary products (exploitation stage) to more developed areas. Emergy indices calculated for the SLB from 1995 to 2005 revealed changes in the relative sustainability of the system over this time. The sustainability of the region as indicated by the renewable emergy used as a percent of total use declined 4%, whereas, the renewable carrying capacity declined 6% over this time. The Emergy Sustainability Index (ESI) showed the largest decline (27%) in the sustainability of the region. The total emergy used by the SLB, a measure of system well-being, was fairly stable (CV?=?0.05). In 1997, using renewable emergy alone, the SLB could support 50.7% of its population at the current standard of living, while under similar conditions the U.S. could support only 4.8% of its population. In contrast to other indices of sustainability, a new index, the Emergy Sustainable Use Index (ESUI), which considers the benefits gained by the larger system compared to the potential for local environmental damage, increased 34% over the period. 相似文献
660.
Corace RG Shartell LM Schulte LA Brininger WL McDowell MK Kashian DM 《Environmental management》2012,49(2):359-371
To facilitate forest planning and management on National Wildlife Refuges, we synthesized multiple data sources to describe
land ownership patterns, land cover, landscape pattern, and changes in forest composition for four ecoregions and their associated
refuges of the Upper Midwest. We related observed patterns to ecological processes important for forest conservation and restoration,
with specific attention to refuge patterns of importance for forest landbirds of conservation priority. The large amount of
public land within the ecoregions (31–80%) suggests that opportunities exist for coarse and meso-scale approaches to conserving
and restoring ecological processes affecting the refuges, particularly historical fire regimes. Forests dominate both ecoregions
and refuges, but refuge forest patches are generally larger and more aggregated than in associated ecoregions. Broadleaf taxa
have increased in dominance in the ecoregions and displaced fire-dependent taxa such as pine (Pinus spp.) and other coniferous species; these changes in forest composition have likely also affected refuge forests. Despite
compositional changes, larger forest patches on refuges suggests that they may provide better habitat for area-sensitive forest
landbirds of mature, compositionally diverse forests than surrounding lands if management continues to promote increased patch
size. We reason that although fine-scale research and monitoring for species of conservation priority is important, broad
scale (ecoregional) assessments provide crucial context for effective forest and wildlife management in protected areas. 相似文献