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Evaluation of environmental characteristics of WTP residuals for disposal in monofills
Disposal of water treatment plant (WTP) have raised great concerns due to the stringent water quality standards and environmental regulations, and limited availability of land for ultimate disposal. The ultimate disposal of water treatment plant residuals by using monofill may be one of the most economical, and feasible options. Design and operation of such a monofill will be simple because of the uniformity of the characteristics of WTP residuals.
The objectives of this project were to determine the environmental characteristics of WTP residuals and to apply these characteristics for the design of monofills and development of the metal leaching model to predict the primary metals movement from WTP residuals in long term.
Samples of WTP residuals were collected from ten treatment facilities. Average solids content of raw residuals was 1.5 % and solids content of dewatered residuals varied from 15% to 82% in this study. It was noted that if the solids content of the residuals were below 15%, the residuals usually failed the paint filter tests. The pH of WTP residuals mainly depends on the coagulant added. The pH of alum and ferric residuals were generally neutral and the pH of lime residuals ranged from 9 to 12. The pH value and buffer capacity of lime residual were high. This is beneficial since it prevents metal from leaching. A high cation exchange capacity (CEC) of WTP residuals (20 to 35 meq/100g) generally connotes potentially a high capacity to maintain contaminants in the residuals.
There is a direct relationship between what were inside the residual and what leached out. Metal contents, pH, and CEC in dewatered residuals are found to be related to types of water sources, impurities of water sources, and chemicals added during water purification and dewatering processes.
The toxicity characteristics leaching procedure (TCLP) analysis for WTP dewatered residuals from ten water treatment facilities were conducted. Analytical results show that the concentrations of the TCLP regulated compounds in all samples were below the regulation limits. This indicates that the WTP residual tested were non hazardous.
There was no significant change in solids content, volatile solids content, and primary metals contents among the fresh, six-month, and one year-old samples taken from minimonofill. The results of field study indicated that most metals and organics remained in WTP residuals and no significant biodegradation noticed.
A mathematical predictive leaching model for major metal ions in WTP residuals are developed using diffusion theory, metals solubility, and adsorption mechanisms. This leach model can be used to predict long term primary metals leaching and to quantify immobilization of these elements for WTP residuals. WTP monofill disposal is better than MSW landfill disposal based on the leachbility studies and leaching model prediction
First-principles calculations of phase transition, elasticity, and thermodynamic properties for TiZr alloy
tructural transformation, pressure dependent elasticity behaviors, phonon,
and thermodynamic properties of the equiatomic TiZr alloy are investigated by
using first-principles density-functional theory. Our calculated lattice
parameters and equation of state for and phases as well as
the phase transition sequence of
are
consistent well with experiments. Elastic constants of and
phases indicate that they are mechanically stable. For cubic phase,
however, it is mechanically unstable at zero pressure and the critical pressure
for its mechanical stability is predicted to equal to 2.19 GPa. We find that
the moduli, elastic sound velocities, and Debye temperature all increase with
pressure for three phases of TiZr alloy. The relatively large values
illustrate that the TiZr alloy is rather ductile and its ductility is more
predominant than that of element Zr, especially in phase. Elastic wave
velocities and Debye temperature have abrupt increase behaviors upon the
transition at around 10 GPa and exhibit
abrupt decrease feature upon the
transition at higher pressure. Through Mulliken population analysis, we
illustrate that the increase of the \emph{d}-band occupancy will stabilize the
cubic phase. Phonon dispersions for three phases of TiZr alloy are
firstly presented and the phase phonons clearly indicate its
dynamically unstable nature under ambient condition. Thermodynamics of Gibbs
free energy, entropy, and heat capacity are obtained by quasiharmonic
approximation and Debye model.Comment: 9 pages, 10 figure
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