Global ETD Search

381	Gypsum and Sulfur-Bearing Amendments for Arizona Soils Fuller, Wallace H., Ray, Howard E. 03 1900 (has links) This item was digitized as part of the Million Books Project led by Carnegie Mellon University and supported by grants from the National Science Foundation (NSF). Cornell University coordinated the participation of land-grant and agricultural libraries in providing historical agricultural information for the digitization project; the University of Arizona Libraries, the College of Agriculture and Life Sciences, and the Office of Arid Lands Studies collaborated in the selection and provision of material for the digitization project. Gypsum -- Arizona. Soils -- Gypsum content. Soils -- Sulfur content. Gypsum. Soils -- Gypsum content. Soils -- Sulfur content.
382	Metal complexes of a new polyimido sulfur phosphanyl ligand Carl, Elena 27 June 2014 (has links) No description available. 540 Chemie (PPN62138352X)
383	Investigations into the interactions between sulfur and anodes for solid oxide fuel cells Cheng, Zhe 05 March 2008 (has links) Solid oxide fuel cells (SOFCs) are electrochemical devices based on solid oxide electrolytes that convert chemical energy in fuels directly into electricity via electrode reactions. SOFCs have the advantages of high energy efficiency and low emissions and hold the potential to be the power of the future, especially for small power generation systems (1-10 kW). Another unique advantage of SOFCs is the potential to directly utilize hydrocarbon fuels such as natural gas through internal reforming. However, all hydrocarbon fuels contain some sulfur compounds, which transform to hydrogen sulfide (H2S) in the reforming process and dramatically degrade the performance of the existing SOFCs. In this study, the interactions between sulfur contaminant (in the form of H2S) and the anodes for SOFCs were systematically investigated in order to gain a fundamental understanding of the mechanism of sulfur poisoning and ultimately to achieve rational design of sulfur-tolerant anodes. The sulfur poisoning behavior of the state-of-the-art Ni-YSZ cermet anodes was characterized using electrochemical measurements performed on button cells (of different structures) under various operating conditions, including H2S concentration, temperature, cell current density/terminal voltage, and cell structure. Also, the mechanisms of interactions between sulfur and the Ni-YSZ cermet anode were investigated using both ex situ and in situ characterization techniques such as Raman spectroscopy. Results suggest that the sulfur poisoning of Ni-YSZ cermet anodes at high temperatures in fuels with ppm-level H2S is due not to the formation of multi-layer conventional nickel sulfides but to the adsorption of sulfur on the nickel surface. In addition, new sulfur-tolerant anode materials were explored in this study. Thermodynamic principles were applied to predict the stability of candidate sulfur-tolerant anode materials and explain complex phenomena concerning the reactivity of candidate materials with hydrogen sulfide. The enhanced sulfur tolerance for some candidate anode materials such as (Gd2Ti1.4Mo0.6O7) is attributed to the transition of the surface from metal oxides to sulfides (i.e., MoS2), which enhances the catalytic activity and increases the number of reaction sites. Mechanism Raman Poisoning Anode Sulfur Solid oxide fuel cell Solid oxide fuel cells Sulfur Anodes
384	Molecular x-ray spectroscopy: the K α x-ray emission spectra of sulfur and chlorine compounds Whitehead, Henry Collins January 1973 (has links) Typescript. / Thesis (Ph. D.)--University of Hawaii at Manoa, 1973. / Bibliography: leaves [293]-300. / xvi, 300 l illus., tables Chlorine -- Spectra Sulfur -- Spectra Chlorine compounds Sulfur compounds X-ray spectroscopy
385	Effects of mutations of the iron-sulfur protein on the function and structure of the cytochrome bc₁ complex of yeast mitochondria Ebert, C. Edward. January 2003 (has links) Thesis (Ph. D.)--West Virginia University, 2003. / Title from document title page. Document formatted into pages; contains viii, 144 p. : ill. (some col.). Includes abstract. Includes bibliographical references (p. 129-144).
386	The role of sulfur alloying in defects and transitions in copper indium gallium diselenide disulfide thin films Halverson, Adam Fraser, 1978- 12 1900 (has links) xv, 132 p. : ill. A print copy of this title is available from the UO Libraries, under the call number: SCIENCE TK7871.15.F5 H325 2007 / The effects of sulfur alloying on the electronic properties of CuIn(SeS) 2 and CuInGa(SeS) 2 materials has been investigated using sophisticated junction capacitance techniques including drive-level capacitance profiling and transient photocapacitance and photocurrent spectroscopies. CISSe and CIGSSe materials are used as absorber layers in thin-film photovoltaic devices. By characterizing the electronic properties of these materials we hope to understand how these materials can be improved to make thin-film devices with better conversion efficiencies. Sulfur widens the bandgap of these materials by moving the valence band to lower energies and the conduction band to higher energies. This significantly affects the electronic structure of these devices by increasing the activation energies of dominant acceptor levels and lowering room temperature free hole carrier densities. Using optical spectroscopies we observe a large, broad defect that also changes its apparent energetic depth with sulfur alloying. The occupation of this defect was controlled both optically and thermally, and showed a striking temperature dependence. This temperature dependence was measured by recording the relative defect signal, the ratio of the TPC signal in the defect regime to the above bandgap regime, as a function of temperature. As the temperature of the measurement was decreased, steps in the relative defect signal were observed, indicating the turning off of the thermal pathway that emptied trapped charge from the defect. Remarkably, such steps were seen at the same temperature in CISSe and CIGSSe devices with similar sulfur content. In addition, no steps were seen in CMS devices. This points to a defect state specific to the incorporation of sulfur in the absorber material. We hope that a better understanding of the electronic structure of these materials will assist in the creation of improved wide-bandgap thin-film photovoltaic devices. / Adviser: J. David Cohen Thin film photovoltaics Disordered materials CIGS Transient photocapacitance Sulfur Sulfur alloying
387	Utilização de SO2 recuperado a partir de fosfogesso em plantas de ácido sulfúrico / Use of sulfur dioxide recovered from phosphogypsum in sulfuric acid plants Campos, Kurts, 1982- 12 March 2013 (has links) Orientador: Gustava Paim Valença / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Química / Made available in DSpace on 2018-08-24T00:06:11Z (GMT). No. of bitstreams: 1 Campos_Kurts_M.pdf: 1571455 bytes, checksum: be3e0b10fcf0076c5a292b9ff9f8e965 (MD5) Previous issue date: 2013 / Resumo: Em parques industriais produtores de ácido fosfórico, um grande problema é a quantidade de rejeito gerado, o fosfogesso (gesso com impurezas de ácido fosfórico e sulfúrico). A estocagem deste material no meio ambiente resulta em problemas graves para a fauna e flora nos locais onde é depositado. Neste trabalho, a viabilidade técnica de uma alternativa para o problema de descarte deste subproduto é discutida a partir da recuperação do dióxido de enxofre (SO2) de fosfogesso para utilização em plantas de ácido sulfúrico. Algumas simulações de processo das plantas de ácido sulfúrico serão apresentadas, apontando alternativas industriais para utilização de SO2 recuperado / Abstract: In industrial parks that produce phosphoric acid, the major problem is the amount of waste generated: the phosphogypsum (gypsum with impurities such as phosphoric and sulfuric acid). The storage of this material in the environment results in serious problems for wildlife and flora in places where it is deposited. An alternative to the problem of disposal of this waste as well as its technical feasibility is discussed, recovering sulfur dioxide SO2 from phosphogypsum for use in sulfuric acid plants. In this work, some simulations of sulfuric acid operation were made and the proposal is presented, pointing out the best alternative for SO2 reuse from phosphogypsum / Mestrado / Engenharia de Processos / Mestre em Engenharia Química Dióxido de enxofre Ácido sulfúrico Fosfogesso Meio ambiente Enxofre Sulfur dioxide Sulfuric acid Phosphogypsum Enviromental Sulfur
388	Sulfur-induced Corrosion at Metal and Oxide Surfaces and Interfaces Cabibil, Hyacinth (Hyacinth Liesl) 08 1900 (has links) Sulfur adsorbed on metallic and oxide surfaces, whether originating from gaseous environments or segregating as an impurity to metallic interfaces, is linked to the deterioration of alloy performance. This research dealt with investigations on the interactions between sulfur and iron or iron alloy metallic and oxide surfaces under ultrahigh vacuum conditions. Sulfur was either intentionally dosed from a H2S source on an atomically clean metal surface, or segregated out as an impurity from the bulk to the metal surface by annealing at elevated temperatures. sulfur-induced corrosion metal surfaces oxide surfaces Alloys -- Corrosion. Corrosion and anti-corrosives. Metallic oxides -- Surfaces. Sulfur.
389	Studies of Rechargeable Lithium-Sulfur Batteries Cui, Yi 05 1900 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / The studies of rechargeable lithium-sulfur (Li-S) batteries are included in this thesis. In the first part of this thesis, a linear sweep voltammetry method to study polysulfide transport through separators is presented. Shuttle of polysulfide from the sulfur cathode to lithium metal anode in rechargeable Li-S batteries is a critical issue hindering cycling efficiency and life. Several approaches have been developed to minimize it including polysulfide-blocking separators; there is a need for measuring polysulfide transport through separators. We have developed a linear sweep voltammetry method to measure the anodic (oxidization) current of polysulfides crossed separators, which can be used as a quantitative measurement of the polysulfide transport through separators. The electrochemical oxidation of polysulfide is diffusion-controlled. The electrical charge in Coulombs produced by the oxidation of polysulfide is linearly related to the concentration of polysulfide within a certain range (≤ 0.5 M). Separators with a high porosity (large pore size) show high anodic currents, resulting in fast capacity degradation and low Coulombic efficiencies in Li-S cells. These results demonstrate this method can be used to correlate the polysulfide transport through separators with the separator structure and battery performance, therefore provide guidance for developing new separators for Li-S batteries. The second part includes a study on improving cycling performance of Li/polysulfide batteries by applying a functional polymer on carbon current collector. Significant capacity decay over cycling in Li-S batteries is a major impediment for their practical applications. Polysulfides Li2Sx (3 < x ≤ 8) formed in the cycling are soluble in liquid electrolyte, which is the main reason for capacity loss and cycling instability. Functional polymers can tune the structure and property of sulfur electrodes, hold polysulfides, and improve cycle life. We have examined a polyvinylpyrrolidone-modified carbon paper (CP-PVP) current collector in Li/polysulfide cells. PVP is soluble in the electrolyte solvent, but shows strong affinity with lithium polysulfides. The retention of polysulfides in the CP-PVP current collector is improved by ~50%, which is measured by a linear sweep voltammetry method. Without LiNO3 additive in the electrolyte, the CP-PVP current collector with 50 ug of PVP can significantly improve cycling stability with a capacity retention of > 90% over 50 cycles at C/10 rate. With LiNO3 additive in the electrolyte, the cell shows a reversible capacity of > 1000 mAh g ⁻¹ and a capacity retention of > 80% over 100 cycles at C/5 rate. The third part of this thesis is about a study on a binder-free sulfur/carbon composite electrode prepared by a sulfur sublimation method for Li-S batteries. Sulfur nanoparticles fill large pores in a carbon paper substrate and primarily has a monoclinic crystal structure. The composite electrode shows a long cycle life of over 200 cycles with a good rate performance in Li-S batteries. Lithium-sulfur battery Polysulfide transport Polyvinylpyrrolidone Electrochemical performance Binder-free electrode Sulfur sublimation method
390	Evolution of sulfur-bearing gases from blast furnace slags Agrawal, Balkishan. January 1980 (has links) Thesis: Sc. D., Massachusetts Institute of Technology, Department of Materials Science and Engineering, 1980 / Vita. / Includes bibliographical references. / by Balkishan Agrawal. / Sc. D. / Sc. D. Massachusetts Institute of Technology, Department of Materials Science and Engineering Materials Science and Engineering. Slag. Sulfur. Blast furnace gas. Blast furnace gas. fast Sulfur. fast Slag. fast

Search results