Global ETD Search

81	Arsenic removal and stabilization by synthesized pyrite Song, Jin Kun 15 May 2009 (has links) Arsenic is ubiquitous whether it is naturally occurring or produced by humans. It is found at sites on the National Priority List and at sites operated by DOE, where it is the second most commonly found contaminant. More wastes containing arsenic will be produced due to the lowering of the Maximum Contaminant Level (MCL) for arsenic in drinking water which will result in more treatment facilities for arsenic removal that will generate residuals. Furthermore, arsenic can be released from such wastes under the reduced conditions that are found in landfills. Pyrite (FeS2) is believed to be a compound that has a high affinity for arsenic and is stable under anoxic conditions. The first task of this research was to develop a method for making pyrite crystals of defined size with minimal reaction time and at high yield. Effects on the synthesis of pyrite particles of pH, the ratio of Fe/S, temperature and reaction time were investigated in batch reactor systems. Pyrite was synthesized within 24 hours at pH values ranging from pH 3.6 through pH 5.6, and at a ratio of Fe/S of 0.5. X-ray diffraction and scanning electron microscopy were used to size and characterize the pyrite particles. Experimental and analytical procedures developed for this work, included a hydride generation atomic absorption spectrometry method for measuring arsenic species (As(III), As(V)). The synthesized pyrite was applied to remove arsenic and its maximum capacity for arsenic removal was measured in batch adsorption experiments to be 3.23 μmol/g for As(III) and 113 μmol/g for As(V). Information obtained on the characteristics of chemical species before and after the reaction with arsenic showed that iron and sulfur were oxidized. Last, how strongly arsenic was bound to pyrite was investigated and it was determined that release of arsenic from As(III)-pyrite is not affected by pH, but release from As(V)-pyrite is affected by pH with minimum release in the range pH 5 to pH 8. Arsenic Removal Pyrite Sorption Stabilization
82	Ground improvement with conventional and novel binders Jegandan, Seevaratnam January 2010 (has links) No description available. 620 Soil stabilization ; Soil mechanics
83	A micro-study of Portland cement-treated kaolin Treadwell, Donald Duncan, 1941- January 1966 (has links) No description available. Soil stabilization. Kaolin. Portland cement.
84	Reproducibility of soil compaction curve Agah, Hamid, 1939- January 1968 (has links) No description available. Soil stabilization. Soils -- Mathematical models.
85	A study of the effects of a cellulose derivative on the properties of clay minerals Haynie, Richard Marion, 1930- January 1960 (has links) No description available. Soil stabilization. Soil amendments. Cellulose.
86	Chemical soil stabilization by Formula 125 by Mohamed Mour Yaseen Fatani Fatani, Mohamed Nour Yaseen January 1973 (has links) The effects of three concentration levels of Formula 125 at three different percents of maximum dry density on various engineering properties of a silty clay soil were investigated through a laboratory study. Different types of soil stabilization methods are briefly discussed. Details of laboratory procedure and tests using different testing equipments are also given. Data relating the cost and effectiveness are compiled for comparison purposes. It was found that Formula 125 is very effective on most of the tests that were performed. Soil stabilization. Clay soils -- Testing.
87	Decompaction of a degraded clay soil Chambers, Robert January 1994 (has links) An experiment was set up at Alfred College, in Eastern Ontario, to investigate methods of correcting the negative effects of deep compaction of fine textured soils. / The site was divided into two fields of four treatments with three replicates of each. Treatment 1 was control, treatment 2 subsoiled, treatment 3 compacted and treatment 4 compacted then subsoiled. In year 1 barley was sown in both fields, underseeded with alfalfa in Field 1. The following year alfalfa was grown in Field 1 and corn using minimum tillage in field 2. / Measurements included cone penetration resistance, dry bulk density, and crop yields. / It was found that compaction had a significant effect on lowering yields. However, due to the experiment methodology in the measuring of cone penetration resistance and dry bulk density plus a blocking effect in the corn field, the results were inconclusive statistically as to whether the subsoiling in combination with minimum tillage and alfalfa had an effect of decompacting the soil profile. Soil stabilization. Clay soils. Tillage.
88	Stabilization of highway bases and subgrades with Portland cement and stone screenings Meyersohn, Charles 12 1900 (has links) No description available. Road materials Testing Soil stabilization
89	Effect of chemical wetting agents on the strength of compacted cohesive soils Mejía, Fernando 12 1900 (has links) No description available. Soil stabilization Surface active agents
90	The effect of chemical wetting agents on the compaction of clay and silt soils Shirley, Henry Garnett 12 1900 (has links) No description available. Soil stabilization Surface active agents

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