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Hidrogeoquímica do Grupo Una (Bacias de Irecê e Salitre): um exemplo da ação de ácido sulfúrico no sistema cárstico / not availableValle, Murilo Andrade 22 December 2004 (has links)
O presente estudo investigou a participação do H2S04, como agente corrosivo no carste do Grupo Una, na bacia de Irecê e na bacia do rio Salitre, tendo como base o monitoramento hidroquímico e a determinação de fácies hidroquímicas. A fácies escoamento superficial alogênico é caracterizada por baixos valores de pH (\'X BARRA\'=4,79 ; CV=3,15%) e dos principais cátions e ânions, com destaque para S\'O IND. 4 POT. 2-\' (x=0,57 mg/L ; CV10,32%); A fácies fluxo freático profundo carbonático representa a maior concentração de HC\'O IND. 3 POT. -\' de todo conjunto amostrado, com média igual a 359,08 mg/L. Na média as águas desta fácies encontram-se saturadas para calcita (S\'l IND. c\' = 0,02) e insaturadas para gipsita (S\'l IND. g\' = -1,51). A concentração de S\'O IND. 4 POT. 2-\' também é alta (\'X BARRA\'=204,50 mg/L ; CV 135,00%), destacando-se um ponto de amostragem que exibe elevado valor médio para \'SO IND. 4 POT. 2-\' (\'X BARRA\'= 746,07 ; CV = 13,79%); Na fácies percolação vadosa a concentração de S\'O IND. 4 POT. 2-\' é expressiva, com média igual a 305,09mg/L; Nos reservatórios subterrâneos destaca-se a alta concentração de HC\'O IND. 3\'(média - 305,10 mg/L), Índice de Saturação para calcita muito próximo do equilíbrio (S\'l IND. c\'=-0,02) e concentração média para S\'O IND. 4 POT. 2-\' (\'X BARRA\'=17,79 mg/L; CV = 52,03%); Nas nascentes cársticas observou-se alto teor de HC\'O IND. 3 POT. -\' (\'X BARRA\'=246,96 mg/L ; CV = 11,0%), S\'l IND. c\'=0,00 (0,28 a -0,37), em equilíbrio de saturação para o mineral calcita e concentração de S\'O IND. 4 POT. 2-\' (\'X BARRA\'= 19,30mg/L ; CV = 31,47%). As águas meteóricas são caracterizadas por baixas concentrações dos principais cátions e ânions, com médias inferiores a 0,5mg/L. Cálculos estequiométricos foram aplicados aos dados hidroquímicos e conclui-se que no balanço molar as águas não seguem as razões clássicas para dissolução exclusiva por ácido carbônico, mas sim, adequam-se ao sistema \'H IND. 2\'S\'O IND. 4\' - CaMgC\'O IND. 3\'. Minerais secundários de cavernas foram analisados e detectou-se ocorrências expressivas de gipsita, sob a forma de crostas, estalactites e filamentos, que, vinculadas ao ambiente de formação, indicam a participação de soluções ricas em sulfato em seus processos. O evento principal de deposição de gipsita foi associado ao rebaixamento do NA após fase de ampliação paragenética dos condutos. Análises isotópicas de \'\'delta\' POT. 13\'CHC\'O IND. 3 POT. -\' em amostras de águas subterrâneas indicam valores enriquecidos (-10,4%o PDB-V) em relação ao esperado para a reação de dissolução da rocha carbonática por ácido carbônico (-17,1%o), condição relacionada à influência de \'ANTPOT. 13 C\' oriundo da rocha por ação do ácido sulfúrico. O \'delta\' POT. 34\'S de sulfato em água subterrânea (\'X BARRA\'=17,7%o CDT) é levemente empobrecido em relação à pirita (\'X BARRA\'=21,3%o), com valores na faixa de amplitude prevista para o processo de oxidação, condição que atesta a participação de ácido sulfúrico na dissolução da rocha carbonática. Análises microbiológicas na água subterrânea do aqüífero cárstico indicaram a presença de bactérias do gênero Acidithiobacillus e bactérias redutoras de sulfato (BRS), ambas presentes no ciclo do enxofre e responsáveis pela produção de ácido sulfúrico. Neste sentido, as variáveis estudadas possibilitam a confirmação da participação do ácido sulfúrico na dinâmica do sistema cárstico do Grupo Una no Estado da Bahia. / The main goal of this study is to determine the effectiveness of sulfuric acid as a corrosive agent in the karst system of the Una Group (lrecê geological basin and Salitre river basin), based on hydrochemical monitoring and the respective hydrochemical facies. The allogenic surface runoff is characterized by low ion concentrations and pH (ph=4,79 ; CV=3,15%). Sulfate is also low for this facies (\'X BARRA\'=0,57 mg/L ; CV 10,32%). With respect to the HC\'O IND. 3 POT. -\' content, the deep phreatic flux in the carbonate aquifer has the highest concentration compared to the other facies, with a mean of 359,08 mg/L. This deep phreatic flux is saturated with respect to calcite and undersaturated with respect to gypsum, showing average concentrations of 204,5 mg/L (CV 135,00%) for S\'O IND. 4 POT. 2-\', including one sampling site with average concentration of 746,07 mg/L (CV = 13,79%). Expressive sulfate concentration was also detected in the vadose seepage, with a mean of 305,09 mg/L. Underground reservoirs have high HC\'O IND. 3 POT. -\' content (\'X BARRA\'=305,10 mg/L) together with calcite saturation index close to equilibrium (S\'l IND. c\'=-0,02) and lower sulfate concentration (mean of 17,79 mg/L; CV = 52.03%). The karst springs revealed similar chemistry to the underground reservoirs, with high HC\'O IND. 3 POT. -\' content (\'X BARRA\'=246,96 mg/L ; CV = 11,0%), saturated with respect to calcite (mean of S\'l IND. c\' = 0,00; varying between 0,28 and -0,37) and mean sulfate concentration of 19,30mg/L (CV = 31.47%). The meteoric recharge has a very low solute load, with means of all ions lower than 0.5 mg/L. Stoichiometric balance calculations applied to the hydrochemical results showed that the molar balances of the various water facies do not follow the classical ratios of carbonate dissolution only due to carbonic acid, but on the contrary, they follow better the chemical system of \'H IND. 2\'S\'O IND. 4\' - CaMgC\'O IND. 3\'. The study of the expressive secondary gypsum deposits in caves, represented by crusts, stalactites and filaments, showed that their origin is related to the deep phreatic water and that the major deposition event of these deposits occurred during the water table lowering after the high water table period related to the paragenetic conduit enlargement. Isotopic composition of dissolved inorganic carbon in groundwater samples showed values of \'\'delta\' POT. 13\'CHC\'O IND. 3 POT. -\' around -10,4%o PDB-V, which are relatively enriched with respect to the predicted \'\'delta\' POT. 13\'CHC\'O IND. 3 POT. -\' of -17,1%o, if the system would be affected only by carbonic acid. This enrichment is attributed to the \'ANTPOT. 13 C\' originated by the reaction between carbonate rock and sulfuric acid. The \'delta\' POT. 34\'S of sulfate in water (\'X BARRA\'=17,7%o CDT) is slightly depleted than that of pyrite disseminated in carbonate rock (\'X BARRA\'=21,3%o), but still in the range predicted for the fractionation due to pyrite oxidation, indicating that carbonate rock is dissolved by sulfuric acid. Microbiological analysis of groundwater in the karstic aquifer revealed the presence of bacteria of the genera Acidithiobacillus and sulfate reducing bacteria (SRB). Both are typical of the sulfur cycle and produce sulfuric acid. Finally, it can be stated, based on the above described results, that sulfuric acid is an important agent in the dynamics of the studied karst.
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Benefícios ambientais da recuperação da pirita na mineração de carvão em SCWeiler, Jessica January 2016 (has links)
Os depósitos de carvão no Brasil possuem conteúdos relativamente baixos de matéria orgânica. Aproximadamente 65% do carvão ROM (Run-of-min) extraído de minas subterrâneas na região carbonífera de Santa Catarina são descartados como resíduo em depósitos de rejeitos. Esse rejeito contem minerais sulfetados, principalmente a pirita, que oxida e pode gerar drenagem ácida de minas, com diversos impactos ambientais e custos econômicos. Entretanto, com o processamento do rejeito de carvão para concentração da pirita, esta pode-se tornar matéria prima para diversos produtos, entre eles o ácido sulfúrico (insumo deficitário no país, utilizado em grandes quantidades na indústria de fertilizantes). O objetivo deste trabalho foi caracterizar o rejeito de carvão para concentração da pirita proveniente da camada Bonito, no estado de Santa Catarina, avaliando-se o seu potencial uso na produção de ácido sulfúrico e os ganhos ambientais com a dessulfurização do material remanescente. Para isso, foram construídas as curvas de separabilidade densimétrica de uma amostra de rejeito grosso e de uma amostra de rejeito fino. Definiram-se densidades de cortes, de forma a recuperar um material carbonoso remanescente (d<2,2), um material dessulfurizado (2,2<d<2,7) e um concentrado de pirita (d>2,7). Efetuou-se a caracterização das frações densimétricas através de imagens fotográficas e análises de cinzas, enxofre, umidade, poder calorífico, difração de raio-x (DRX), fluorescência de raio-x (FRX) e análise termogravimétrica. As análises ambientais realizadas foram: classificação de resíduos conforme NBR 10.004 e teste estático de predição de acidez pelo método de contabilização de ácidos e bases. Estimou-se a produção de ácido sulfúrico a partir do concentrado piritoso obtido com o processamento do rejeito de carvão das camadas Barro Branco e Bonito e avaliaram-se os ganhos ambientais. Os resultados demonstraram que o rejeito proveniente do circuito de grossos (87,2% do material descartado) possui teor de enxofre de 7,8% e 79,9% de cinzas, já os finos (12,8% do material) tem um teor de enxofre de 4,9% e 70,8% de cinzas. Com a separação densimétrica do rejeito em 2,2 e 2,7, obteve-se uma fração d<2,2 g/cm³ com recuperação mássica de 20,7% para os grossos e 45,2% para os finos que só possui aproveitamento energético em termoelétricas se misturado com carvão de baixo enxofre. O material dessulfurizado (2,2<d<2,7 g/cm³) corresponde a 66% em massa do rejeito para os grossos, possui 3,8% de enxofre e potencial de geração de acidez 60% inferior ao rejeito original. Já a fração pirítica (d>2,7 g/cm³) possui recuperação mássica de 13% para os grossos e teor de enxofre de 33,1%. Quando comparada com a camada Barro Branco, a camada Bonito apresenta níveis superiores de S na fração intermediária, com maior potencial de geração de acidez. De qualquer forma, os rejeitos de carvão grossos, tanto da Camada Barro Branco como Bonito, são passíveis de beneficiamento por processos gravimétricos para obtenção de concentrados com no mínimo 30% de enxofre. Caso houvesse um planejamento global de aproveitamento da pirita na região carbonífera de Santa Catarina para produção de ácido sulfúrico, um acréscimo de 14% da demanda brasileira deste insumo poderia ser realizado com os atuais níveis de produção de carvão, reduzindo em até 75% o enxofre disposto no ambiente e trazendo benefícios econômicos e ambientais à região carbonífera de Santa Catarina. / The grade of coal deposits in Brazil is relatively low, and approximately 65% of the run-of-mine (ROM) coal extracted from underground mines in the carboniferous region of Santa Catarina is discarded as waste in dump deposits. These waste discards contain sulfide minerals, particularly pyrite, which oxidize and give rise to acid rock drainage (ARD) with recognized environmental impacts and economic costs. However, the coal waste could be gravimetrically processed to produce a pyrite concentrate to be used as a raw material for sulfuric acid production (an income with deficient production in the country, largely used in fertilizer industry). The aim of this work was to study the coal waste from the Bonito seam in the state of Santa Catarina, Brazil, evaluating its use for the production of sulfuric acid and the environmental implications of remaining material after the desulfurizing step. Washability curves of coarse and fine waste material from a coal preparation plant working with the Bonito seam was performed. Three different density fractions were separated: a carbonaceous material (d<2.2 g/cm3), a desulfurized material (2.2 and 2.7 g/cm³), and a pyrite concentrate (d>2.7 g/cm³). Characterization studies were carried out by photographic images and ash, sulfur, moisture, calorific value, X-ray diffraction (XRD), X-ray fluorescence (XRF), and thermogravimetric analysis (TGA). Environmental classification of the waste was conducted in terms of NBR 10.004 and static acid prediction test by the acid-base accounting method. It was also estimated the production of sulfuric acid from Barro Branco and Bonito seams as well the environmental benefits of such desulfurization procedures. The results showed that the coarse fraction of coal tailing from Bonito seam (87.2% of the discarded mass) presents 7.8% sulfur and 79.9% ash. The fine waste fraction from the spirals circuit (12.8% of the discarded mass) showed 4.9% sulfur and 70.8% ash. Both materials were subjected to density separation. The fraction d<2.2 g/cm³, with a mass recovery of 20.7% for the coarse fraction and 45.2% for the fine fraction, could be only used for energy production if a moisture with low sulfur coal was provided. The intermediate density material (2.2<d<2.7 g/cm³), which corresponds to a 66% of the mass coarse mass fraction and presents 3.8% sulfur, have a 60% lower acid generation material than the raw waste. The pyrite concentrate (d>2,7) reached a 13% mass recovery with 33.1% sulfur. Comparing the Barro Branco and Bonito seams, the Bonito seam showed superior levels of sulfur in the 2.2<d<2.7 g/cm³ fraction, with a higher an acid generation potential. Nevertheless, the coarse fraction of both seams can be processed for pyrite concentration, reaching the minimum of 30% sulfur necessary for sulfuric acid production by roasting. Considering the levels of coal production in the carboniferous region of Santa Catarina, an input of 14% in the national demand of sulfuric acid would by supplied. This procedure will also reduce in 75% the pyrite disposed in landfills, bringing economic and environmental benefits to the local coal chain production.
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Using 34-S as a Tracer of Dissolved Sulfur Species from Springs to Cave Sulfate Deposits in the Cerna Valley, RomaniaSumrall, Jonathan 23 March 2009 (has links)
Baile Herculane, located in southwestern Romania, is a unique city that exploits its thermal waters. The geology consists of a granitic basement covered by 200 meters of limestone, marl, and flysch deposits. Extreme faulting carries heat ascending from the mantle, which intercepts percolating meteoric waters. Local springs have high concentrations of dissolved sulfide gas (H2S) and dissolved sulfate (SO4²-).These dissolved species indicate the progression of sulfate reduction in the aquifer.
Water samples were collected in polyethylene syringes to prevent oxidation of sulfide. Then, sulfide and sulfate were quantitatively reacted for stable isotope analysis. Total sulfur isotopic composition was calculated to determine the source of the dissolved sulfur. The source of the sulfur is a sulfate of marine origin (𝛅34S≅20%0), which I found to come from impurities in the limestone since the Cerna Valley does not possess marine evaporites.
The limestones of the Cerna Valley are host to a number of caves, which possess relatively large deposits of sulfates and exotic morphologic features that suggest speleogenesis by sulfuric acid. 𝛅34S of the sulfates relates to sulfide isotopic values from the springs, showing that the dissolved sulfide (upon oxidation) forms sulfuric acid s that reacts with limestone to produce sulfate minerals. A wide range of cave sulfate 𝛅34S values exist indicating that isotopic values of these deposits depend on several factors such as sulfur source, extent of sulfate reduction, and completeness of sulfide oxidation. This also implies that a single, narrow range of sulfur isotopic values does not represent sulfuric acid speleogenesis.
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Poisoning and sulfation on vanadia SCR catalyst /Guo, Xiaoyu, January 2006 (has links) (PDF)
Thesis (Ph. D.)--Brigham Young University. Dept. of Chemical Engineering, 2006. / Includes bibliographical references (p. 141-147).
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Nonlinear vibrational spectroscopic studies of the absorption and orientation of environmentally important molecules at the vapor/water interface /Dianne Soule, Melissa C. Kido, January 2007 (has links)
Thesis (Ph. D.)--University of Oregon, 2007. / Typescript. Includes vita and abstract. Includes bibliographical references (leaves 146-156). Also available for download via the World Wide Web; free to University of Oregon users.
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Optimization Of Conditions In Sulfuric Acid Leaching Of Turkish Chromite ConcentratesUstaoglu, Emre 01 July 2006 (has links) (PDF)
In this thesis work, a high grade chromite concentrate obtained from PinarbaSi, Kayseri region of Turkey was reacted with sulfuric acid solution to determine the optimum conditions of leaching of chromite ores.
Conventional methods for producing chromium are still valid in industry. The main process in production includes soda melting and taking it into solution in the form of chemical compounds such as sodium dichromate. Three and six valence
states of chromium have importance in production. Trivalent chromium, chrome ore or chromite have no harmful effects. However, compounds of hexavalent chromium
show toxic, irritating and corrosive action to people and environment. In the mentioned conventional method, main products consist of hexavalent chromium compounds. In this study, only trivalent chromium remained in the leach solution
and did not change to hexavalent state. Obtained product after leaching was chromium(III) sulfate.
The maximum extraction of chromium in the absence of perchloric acid was 94.1 % under the conditions of 175 ° / C, 6 hours and 84.6 wt % sulfuric acid. The maximum extraction of chromium in the presence of perchloric acid was 98.7 % under the conditions of 175 ° / C, 2 hours, 84.6 wt % sulfuric acid and ½ / perchloric acid / chromite ratio. The latter one was also the highest recovery value obtained during the experiments. Moreover, in none of the analyzed samples, appreciable
amounts of hexavalent chromium was found during analyses.
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Low voltage electrochemical hydrogen productionWeaver, Eric P 01 June 2006 (has links)
Hydrogen production is dependent on natural gas, 90% in the U.S. and 48% of the world's production. Natural gas supply is dwindling and it's price is increasing. Greenhouse gases and air pollutants are emitted when natural gas is used. In a single product production facility, coal is not competitive with natural gas for hydrogen production at current prices. Hydrogen production by direct electrochemical dissociation of water requires a relatively high voltage.Techniques have been developed for manufacturing hydrogen as a lucrative byproduct of IGCC electric power generation, refinery sulfur production and sulfuric acid production for fertilizer production.
Laboratory experiments have been conducted on small systems to advance the technology and full size commercial plants have been conceptualized and analyzed to establish economic viability.In this thesis, a low voltage electrochemical hydrogen production technique has been developed that entails scavenging of the anode with sulfur dioxide. In an electrochemical cell hydrogen is produced at the negative electrode while the positive electrode is bathed in sulfur dioxide which is oxidized with water to sulfuric acid. The presence of SO2 substantially reduces the equilibrium voltage relative to that required for the direct dissociation of water into hydrogen and oxygen. Also sulfuric acid is a more valuable byproduct than oxygen. More sulfuric acid is produced than any other chemical commodity in the U.S. and is a major economic indicator.
Hydrogen produced by the electrochemical route being discussed in this thesis illustrates industrial possibilities for large scale-up, economical hydrogen production.In an electrochemical cell, an equilibrium voltage of 1.23 volts is required to decompose water into hydrogen and oxygen. The presence of sulfur dioxide to scavenge the anode can reduce the equilibrium voltage from 1.23 volts to 0.17 volts. The equations shown below are reactions showing the energy requirements.2H2Oâ?? 2H2 + O2 - 4 Faradays @ 1.2Vâ?? 2SO2 + 4H2O 2H2SO4 + 2H2 - 4 Faradays @ 0.17V The thermochemical free energy is reduced from 113kcal/mole to 15kcal/mole if sulfur dioxide is used as a scavenger.In this work, extensive studies to determine the most effective electrodes and catalysts have been carried out.
The possibilities for photo electrochemical implementation have been investigated and cell design optimization has been performed Experimental methods and results will be presented and discussed.
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Reactivity and galvanic interactions between sulphide minerals in acidified hydrogen peroxide.Lephuting, Senzeni Sipho. January 2013 (has links)
M. Tech. Metallurgical Engineering. / Aims to provide a mineralogical basis for understanding the galvanic dissolution and interaction of sulphide ores in presence of hydrogen peroxide using electrochemical technique. The research aim to achieve the following objectives: study the mineralogical characteristics of different sulphide ores ; study the sulphuric acid dissolution behaviour of the sulphide ores in the presence of hydrogen peroxide and to investigate the interaction of the mineralogy on the ores and hydrogen peroxide during dissolution.
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Deuterium Isotope Effects for Inorganic Oxyacids at Elevated Temperatures Using Raman SpectroscopyYacyshyn, Michael 22 August 2013 (has links)
Polarized Raman spectroscopy has been used to measure the deuterium isotope effect, (delta)pK = pKD2O – pKH2O, for the second ionization constant of sulfuric acid in the temperature range of 25 °C to 200 °C at saturation pressure. Results for pK in light water agree with the literature within ± 0.034 pK units at alltemperatures under study, confirming the reliability of the method. The ionization constant of deuterated bisulfate, DSO4-, differs significantly from previous literature results at elevated temperatures. This results in an almost constant (delta)pK ≈ 0.425 ± 0.076 over the temperature range under study. Differences in (delta)pK values between the literature and current results can be attributed to the effect of dissolved silica from cell components. The new results are consistent with (delta)pK models that treat the temperature dependence of (delta)pK by considering differences in the zero-point energy of hydrogen bonds in the hydrated product and reactant species.
The phosphate hydrolysis equilibrium was measured between the temperatures of 5 °C and 80 °C and the borate/boric acid equilibrium between the temperatures of 25 °C and 200 °C. The high alkalinity and temperatures experienced by these two systems had a significant
impact on the glass dissolution and equilibrium. / Raman spectroscopy was used to measure the small differences in ionization constants for weak acids/bases as a function of temperature. / University of Guelph, Atomic Energy of Canada Limited (AECL), Bruce Power, University Network of Excellence in Nuclear Engineering (UNENE), National Sciences and Engineering Research Council of Canada (NSERC), Natural Resources Canada, Ontario Power Generation (OPG), Canada Foundation for Innovation
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Formaldehyde instrument development and boundary layer sulfuric acid: implications for photochemistryCase Hanks, Anne Theresa. January 2008 (has links)
Thesis (Ph. D.)--Earth and Atmospheric Sciences, Georgia Institute of Technology, 2008. / Committee Chair: Greg Huey; Committee Member: David Tan; Committee Member: Jennifer Olson; Committee Member: Paul Wine; Committee Member: Rodney Weber.
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