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Water balance and the migration of leachate into the unsaturated zone beneath a sanitary landfill.Hojem, David John 27 January 2015 (has links)
No description available.
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Diffusion of selected radionuclides through Hanford Trench 8 soil materialSchwab, Kristen E. 17 October 2003 (has links)
Shallow land burial in vadose zone sediment at the Hanford Site in Washington is being
considered for the disposal of Category 3 low-level waste. A series of column
experiments were conducted to evaluate and model the performance of the soil
surrounding the trench encasement material for iodine-129 and technetium-99 by
evaluating the mobility of these nuclides through the surrounding Trench 8 soil. These
experiments were designed to determine effective diffusion coefficients for ¹²⁷I and ⁹⁹Tc
through the following system: from contaminated soil into uncontaminated soil. The
tests were performed at two different soil moisture contents to evaluate the effects of soil
moisture content on diffusion. This thesis describes the experimental methods and
presents the diffusion results for this media type. It was found that as the moisture
content increased the diffusion increased by an order of magnitude (iodine 4% and 7%
moisture content soil effective diffusion coefficients were 8.90E-08 and 1.84E-07 cm²/s
respectively, and technetium 4% and 7% moisture content soil diffusion coefficients were
7.61E-08 and 1.45E-07 cm²/s respectively). These results, in combination with other
diffusion systems results, will allow the development of release models and contaminant
migration models that can be used to estimate the long-term fate of dose-controlling
radionuclides that are or will be buried in solid waste burial trenches. / Graduation date: 2004
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Model simulation of contaminant movement from a sanitary landfillHineline, T. Lawrence 03 June 2011 (has links)
The potential for leachate movement out of a sanitary landfill was evaluated and simulated by a computer program model. Landfill operations and geohydrological conditions in the area were investigated in order to develop a conceptual model of the system and to obtain numerical data for the development of the simulation.The landfill is operated in a 20 to 27 foot thick clay till which overlies a 10 foot thick, continuous sand and gravel aquifer. Monitor wells located around the site indicate minimal changes in groundwater quality to this date. This is attributed to the slow movement of leachate through the confining layer which would take at least 5 to 10 years.Numerical parameters not readily determined were varied in 16 simulations. This procedure allowed analysis of the different plumes developed as well as observation of the program’s sensitivity to such changes. In simulations of five years from the time leachate would enter the aquifer, leachate plumes were developed which extended a mile and one half down the hydrologic gradient from the landfill. Varying the parameters led to fairly consistant conclusions regarding the effects of the landfill.Ball State UniversityMuncie, IN 47306
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Experimental determination of the potential use of sulfur-waste material in land reclamationAli, Abdul-Mehdi Saleh January 1981 (has links)
No description available.
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Shaft or borehole plug-rock mechanical interactionJeffrey, Robert Graham January 1981 (has links)
No description available.
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Development of a code of practice for co-disposal to obviate inimical environmental impacts of generated gases and leachates.Daneel, Richard A. January 1996 (has links)
Despite its phasing out in numerous countries, such as Germany and the U.S.A.,
co-disposal of hazardous waste with municipal solid waste continues to be widely practised
in South Africa. Co-disposal utilises properties and microbial activities in the refuse to
attenuate the hazardous waste and thus obviate its environmental impact potential. All
landfill operations require careful planning in not only site selection criteria but also the
type and amount of various wastes accepted for disposal. It is clear, however, that the
practice of co-disposal requires special precautions and management as the methods
employed in the landfill operation determine to a large extent the environmental effects
and, thus, the public acceptability of the operations.
Although co-disposal is not suitable for all industrial wastes the results of recent
research efforts, conducted mainly in the U.K., have indicated that, when properly
managed, co-disposal can be regarded as a safe and efficient disposal option for many
hazardous wastes. Environmental awareness in many European countries ensures that
numerous hazardous compounds are either recycled or recovered. Unfortunately, in South
Africa the lack of similar concern has resulted in increased concentrations of toxic
compounds being co-disposed on a regular basis. Since fundamental studies of this
technology, pertaining to South African conditions, have been lacking laboratory
models/microcosms were built to address this paucity.
Model. To effect the separation of species habitat domains of component species of
growth rate-dependent interacting microbial associations responsible for terminal catabolic
processes of the refuse fermentation, with retention of overlapping activity domains, and so
facilitate examination of species in isolation without violating the integrity of each
association, multi-stage models were constructed. The accidental overgassing of the culture
with liquid petroleum gas (LPG) effected interesting fermentation balance changes which
also emphasised the need for an Anaerobic Bioassay Test to assess the impacts of specific
perturbants. Evidence of differential susceptibility of the component species to phenol was
demonstrated in this study.
Microcosm. A total of 42 refuse packed single-stage glass column bioreactors were
commissioned and subjected to phenol and/or anaerobically digested sewage sludge codisposal.
The effects of four different operational modes: leachate discard (single elution);
leachate recycle; batch; and simulated rain on the co-disposals as well as refuse catabolism
per se were examined.
The results of these studies indicated that protracted periods of adaption to phenol (1000
and 2000 mg l -1) could have resulted from nutrient (elemental) limitation. Circumstantial
evidence was also gained which indicated that the nitrate- and sulphate-reducing bacteria
(SRB) were particularly sensitive to the added xenobiotic. Further, without the effective
participation of the nitrate- and SRB the active and total fermentation of both the phenol
and refuse components were depressed. It was also determined that the operating regime
employed was a key factor in refuse degradation although with time, and especially
following the phenol resupplementations, the operating conditions played a less significant
role. In general, the single elution operated columns demonstrated increased phenol
removal rates which were, unfortunately, coincident with low pH values and increased
leachate residual phenol concentrations. Leachate recycle, on the other hand, unlike the
batch operated columns, facilitated increased pH values and methane evolutions. The
simulated rain columns were characterised by rapid washout of the added phenol as well as
methanogenic precursors.
The sewage sludge co-disposal experiments, likewise, demonstrated that, depending on
the sludge:refuse ratio, the operating regime was extremely important in optimising the
refuse degradation processes although, in general, leachate recycle appeared to be the most
favoured method of operation. / Thesis (Ph.D.)-University of Natal, Pietermaritzburg, 1996.
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Application of image analysis in microecophysiology research : methodology development.Dudley, B. T. January 1998 (has links)
Rehabilitation of landfill sites is important for successful land utilization. Revegetation is
one key element of the process since it can overcome aesthetic problems. The inimical
challenges of landfill leachate and gas are largely responsible for the difficulties associated
with the revegetation of completed sites. Many components of landfill leachate can be
catabolized by microbial associations thereby reducing their impacts on the environment.
The importance of research on interactions between pollutants, microorganisms and soil
is its applicability in environmental risk assessment and impact studies of organic
pollutants which enter the soil either accidentally or intentionally.
The application of image analysis with microscopy techniques to landfill soil-pollution
interactions provides a means to study surface microbiology directly and to investigate
microbial cells under highly controlled conditions. This research focused on the
development of a method to study the real time processes of attachment, establishment,
growth and division of microbial cells/associations in site covering soils. Image analysis
provides a powerful tool for differential quantification of microbial number, identification
of morphotypes and their respective responses to microenvironment changes. This
minimal disturbance technique of examining visually complex images utilizes the spatial
distributions and metabolic sensitivities of microbial species. It was, therefore, used to
examine hexanoic acid catabolizing species, both free-living and in a biofilm, with respect
to obviating the threat of hexanoic acid to reclamation strategies.
The three sources of inoculum (soil cover, soil from the landfill base liner and municipal
refuse) were compared for their ability to provide associations which catabolized the
substrate rapidly. During the enrichment programme the inocula were challenged with different concentrations of hexanoic acid, a common landfill intermediate. From the rates
at which the substrate was catabolized conclusions were drawn on which concentration
of hexanoate facilitated the fastest enrichment. The results of initial batch culture
enrichments confirmed that the soil used contained microbial associations capable of
catabolizing hexanoic acid at concentrations < 50mM, a key leachate component.
Exposing the landfill top soil microorganisms to a progressive increase in hexanoic acid
concentration ensured that catabolic populations developed which, in situ, should reduce
the phytotoxic threat to plants subsequently grown on the landfill cover.
The analysis of surface colonization was simplified by examining the initial growth on
newly-exposed surfaces. The microbial associations generated complex images which
were visually difficult to quantify. Nevertheless, the dimensional and morphological
exclusions which were incorporated in the image analysis software permitted the
quantification of selected components of the associations although morphology alone was
inadequate to confirm identification.
The effects of increasing the dilution rate and substrate concentration on the growth of
surface-attached associations in Continuous Culture Microscopy Units (CCMUs) were
examined. Of the five dilution rates examined the most extensive biofilm development
(9.88 jum2) during the selected time period (72h) resulted at a dilution rate of 0.5h' (at
10mM hexanoic acid). The highest growth (608 microorganisms.field"1) was recorded in
the presence of 50mM hexanoic acid (D = 0.5h"1). To ensure that the different
morphotypes of the associations were able to multiply under the defined conditions a
detailed investigation of the component morphotypes was made. Numerically, after 60h
of open culture cultivation in the presence of 50mM hexanoic acid, rods were the
predominant bacterial morphotypes (43.74 field'1) in the biofilms. Both rods and cocci were distributed throughout the CCMUs whereas the less numerous fungal hyphae (0.25
field'1) were concentrated near the effluent port.
The specific growth rates of the surface-attached associations and the component
morphotypes were determined by area (//m2) colonized and number of
microorganisms.field"' and compared to aerobic planktonic landfill associations. From area
determinations ( > 0.16 h'1) and the number of microorganisms.field"1 10mM hexanoic
acid was found to support the highest specific growth rate ( > 0.05 h"1) of the surfaceattached
association isolated from municipal refuse. With optical density determinations,
the highest specific growth rate (0.01 h'1) was recorded with 25mM hexanoic acid. The
surface-attached microbial associations component species determinations by area and
number showed that the hyphae had the highest specific growth rate ( > 0.11 h"1). The
surface-attached microbial association specific growth rate determinations from the
discriminated phase (0.023 h'1), area colonized (0.023 h"1) and number of microorganisms
(0.027 h"1) calculated from the results of the component species rather than the
association should give more accurate results.
The specific growth rate obtained differed depending on the method of determination. Any
one of these may be the "correct" answer under the cultivation conditions. Depending on
the state (thickness) of the association (free-living, monolayer or thick biofilm) the different
monitoring methods may be employed to determine the growth. As a consequence of the
results of this study, the kinetics of microbial colonization of surfaces in situ may be
subjected to the same degree of mathematical analysis as the kinetics of homogeneous
cultures. This type of analysis is needed if quantitative studies of microbial growth are to
be extended to surfaces in various natural and artificial environments. / Thesis (M.Sc.)-University of Natal, Pietermaritzburg, 1998.
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Radiochemical methods and results used to characterize concentrations of radioactive material in soil at the former McClellan Air Force Base (AFB)Thomas, Dale D., III 12 1900 (has links)
No description available.
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Environmental issues associated with landfill-generated methane /Kutlaca, Alex January 1992 (has links) (PDF)
Thesis (M. Env. St.)--University of Adelaide, Mawson Graduate Centre for Environmental Studies, 1993. / Includes bibliographical references (leaves 142-161).
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Diverging flow tracer tests in fractured granite: equipment design and data collectionBarackman, Martin Lee, 1953-, Barackman, Martin Lee, 1953- January 1986 (has links)
Down-hole injection and sampling equipment was designed and constructed in order to perform diverging-flow tracer tests. The tests were conducted at a field site about 8 km southeast of Oracle, Arizona, as part of a project sponsored by the U. S. Nuclear Regulatory Commission to study mass transport of fluids in saturated, fractured granite. The tracer injection system was designed to provide a steady flow of water or tracer solution to a packed off interval of the borehole and allow for monitoring of down-hole tracer concentration and pressure in the injection interval. The sampling system was designed to collect small volume samples from multiple points in an adjacent borehole. Field operation of the equipment demonstrated the importance of prior knowledge of the location of interconnecting fractures before tracer testing and the need for down-hole mixing of the tracer solution in the injection interval. The field tests were designed to provide data that could me analyzed to provide estimates of dispersivity and porosity of the fractured rock. Although analysis of the data is beyond the scope of this thesis, the detailed data are presented in four appendices.
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