Global ETD Search

71	Selective dissolution and extraction of metals from deep sea ferromanganese nodules Stiff, Ann Clopton January 1981 (has links) No description available. Manganese nodules -- Pacific Ocean. Manganese nodules -- Solubility. Solvent extraction.
72	COMPARISON OF MULTIPLE DRUG AND METABOLITE LEVELS RECOVERED FROM SKELETONIZED REMAINS FOLLOWING STANDARD PASSIVE EXTRACTION, MICROWAVE-ASSISTED EXTRACTION AND ULTRASONIC SOLVENT EXTRACTION AND GC-MS OR UPLC-DAD Betit, Caroline 17 March 2014 (has links) No description available. Forensic toxicology microwave-assisted-extraction ultrasonic-solvent extraction GC-MS
73	Physicochemical Changes of Coffee Beans During Roasting Wang, Niya 20 April 2012 (has links) In this research, physicochemical changes that took place during roast processing of coffee beans using fluidized air roaster were studied. The results showed that high-temperature-short-time resulted in higher moisture content, higher pH value, higher titratable acidity, higher porous structure in the bean cell tissues, and also produced more aldehydes, ketones, aliphatic acids, aromatic acids, and caffeine than those processed at low-temperature-long-time process. Fourier transform infrared (FTIR) spectroscopy and chemometric analysis showed that clusters for principal components score plots of ground coffee, extracted by a mixture of equal volume of ethyl acetate and water, were well separated. The research indicated that variations in IR-active components in the coffee extracts due to different stages of roast, roasting profiles, and geographical origins can be evaluated by the FTIR technique. / Natural Sciences and Engineering Research Council of Canada (NESRC) and Mother Parkers Tea & Coffee Inc. Solvent extraction FTIR coffee discrimination chemometrics roassting profiles
74	Recycling of complexometric extractant(s) to remediate a soil contaminated with heavy metals Lee, Chia Chi January 2002 (has links) A possible remediation strategy that involved washing with complexing reagents(s) [disodium ethylenediaminetetraacetate (Na2EDTA) alone or in combination with bis-(2-hydroxyethyl)dithiocarbamate (HEDC)] was evaluated with an urban soil that had been field contaminated with excesses of heavy metal (HMs). Heavy metals (Cd, Cu, Mn, Ni, Pb and Zn) were targeted for removal. The aqueous solution that resulted from, washing was treated with zero-valent (ZV) magnesium (Mg0) or bimetallic mixture (Pd0/Mg 0 or Ag0/Mg0) to release the chelating reagent(s) from their heavy metal complexes. During this reaction, the heavy metals were precipitated from solution as hydroxides or became plated on to the surface of the excess ZV reagent. Thus, an appreciable fraction of the mobilized Pb and Cu and a portion of Zn became cemented to the surface of the ZV metal whereas most of the Fe and Mn were removed from solution as insoluble hydroxides. After filtration and pH re-adjustment, the demetallized solution was then returned to the soil to extract more heavy metals. After three washing cycles with the same reagent, it was observed that the sparing quantity of EDTA (10 mmoles) had mobilized 32--54% of the soil burden heavy metals (5 mmoles), but only 0.1% of the iron had been removed. / A 1:1 (mol/mol) mixture of EDTA and HEDC proved to be approximately equally efficient at HM extraction despite more than a three-fold reduction (3 mmoles) in the quantity of reagents. Three washing with the same reagent mobilized some 49% of the Pb, 18% of the Zn and 19% of the Mn but only 7% of the Cu and 1% of the Fe from the test soil. Heavy metals -- Environmental aspects. Soil remediation. Chelates. Solvent extraction.
75	Dechlorination of chlorinated organic compounds by zero-valent and bimetallic mixture Kabir, Anwar. January 2000 (has links) Organochlorine (OC) compounds that include several pesticides as well as an array of industrial chemicals were very efficacious for their intended use but were also characterized by deleterious environmental impacts when released either intentionally or inadvertently. Their lipophilic nature, long persistence in the environment and threat to human health caused all the developed countries to ban the production of these chemicals as well as restricted the use of formulations containing these material for food production. / A number of scientists have become involved in the development of intentional degradation methods/techniques for these compounds using zero-valent metals or bimetallic mixtures. To date, there is no single, simple and continuous procedure available to completely dechlorinate lindane or pentachlorophenol (PCP). This work describes the complete dechlorination of lindane and pentachlorophenol by zero-valent Zn, Fe and Fe/Ag bimetallic mixture as well as a supercritical fluid extraction technique for a more efficient mass transfer of the substrates to the surfaces of the metal catalyst. The dechlorination reaction occurs on the surface of metal particles with the removal of all the chlorine atoms from lindane and PCP in a matter of minute, and yields completely dechlorinated hydrocarbon molecules and chloride as products. (Abstract shortened by UMI.) Lindane -- Environmental aspects. Solvent extraction.
76	Heavy metal removal from soil by complexing reagents with recycling of complexing reagents Xie, Ting, 1971- January 2000 (has links) Heavy metals in the environment are a source of some concern because of their potential reactivity, toxicity, and mobility in the soil. Soil contamination by metals is placing human and environmental health at risk through possible contamination of food chain. / Soil washing can be used to remove metals from the soil. Chemical treatment involves the addition of extraction agents that react with the contaminant and leach it from the soil. The liquid, containing the contaminants, is separated from the soil resulting in a clean solid phase. Six chelating reagents, EDTA, Citric acid, ADA, DTPA, SCMC, and DPTA, were employed to determine the relative extraction efficiencies of the six chelating reagents for the target metals. Recycling of chelating reagent was the main interest of this study. The experiments were divided into four parts: (1) preliminary studies on the preparation and characterization of soil that included grinding, sieving, soil texture measurements, total metals content post digestion and the distribution of metals in different soil fractions as well as (2) a comparison of the extraction efficiencies of six chelating reagents toward Cu, Pb, Zn, Fe, and Mn. Additionally, the chelating reagent was liberated and recycled by treatment of the metal-complexes with disodium diethyl dithiocarbomate (DEDTC). Additionally, supercritical CO2 was used to extract metal-DEDTC complexes using various surfactants to maintain the metal-DEDTC complexes in suspension. Finally, (4) magnesium metal was evaluated as an alternative method for liberating the water-soluble chelating reagent from the complex so as to be able to recycle this reagent as well. / The different approaches were promising in terms of recycling the chelating reagents that suggests a means of optimizing the experimental conditions in future applications. Heavy metals -- Environmental aspects. Soil remediation. Solvent extraction. Chelates.
77	Laboratory study of solvent extraction of polychlorinated biphenyls in soil Valentin, Melissa McShea. January 2000 (has links) Polychlorinated biphenyls (PCBs) are toxic, stable organic contaminants that are present in air, water, soil, plants and animals all around the world. The market for PCB treatment technologies is estimated to be $300 to $600 million (Canadian dollars) for the year 2000, and will expand in future years. Existing treatment technologies to remove PCBs from soil are underutilized because they are more expensive than landfilling and incineration. This thesis presents a laboratory study of an innovative PCB remediation process that will extract PCBs from soil in-situ for subsequent destruction above ground. This remedy will remove PCBs from surficial soil without the need for excavation. Two laboratory studies were conducted on field-contaminated soil. The first experiment evaluated the effectiveness of hexane, methyl isobutyl ketone, and ethyl acetate in removing PCBs from soil. Ethyl acetate and MIBK were equally effective, removing 99% and 98% of PCBs from dry soil in 4 days, respectively. In the second experiment, soil was exposed to ethyl acetate for varying amounts of time, and some of the samples were treated a second time with fresh solvent. PCB removal increased as treatment time was increased from 10 minutes to 50, 250, and 1250 minutes, but the rate of PCB removal decreased as treatment time increased. The second 10-minute extraction removed an additional 1--10% of the remaining PCBs. Soil remediation. Solvent extraction.
78	Extraction of wine components with liquid carbon dioxide / Magashi, Anne. Unknown Date (has links) Thesis (M App Sc) -- University of South Australia, 1992 Liquid carbon dioxide. Solvent extraction. Wine and wine making
79	Liquid carbon dioxide extraction of various food flavors : evaluation and analysis / Shinholt, Deven Lee January 2009 (has links) Thesis (B.S.)--Butler University, 2009. / Includes bibliographical references.
80	Trace metal speciation in marine waters by competitive ligand equilibration/solvent extraction theory and practice / Miller, Lisa Ann. January 1900 (has links) Thesis (Ph. D.)--University of California, Santa Cruz, 1994. / Typescript. Includes bibliographical references.

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