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Kinetics and interactions of the simultaneous catalytic hydrodenitrogenation of pyridine and hydrodesulfurization of thiopheneWilkens, John Albert January 1977 (has links)
Thesis. 1977. Ph.D.--Massachusetts Institute of Technology. Dept. of Chemical Engineering. / M̲i̲c̲á¹o̲f̲i̲c̲áºe̲ c̲o̲p̲y̲ a̲v̲a̲i̲ḻa̲á¸á¸»e̲ i̲ṠA̲á¹c̲áºi̲v̲e̲s̲ a̲á¹á¸ S̲c̲i̲e̲á¹c̲e̲.̲ / Vita. / Bibliography : leaves 378-385. / by John A. Wilkens. / Ph.D.
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Essays on U.S. energy marketsBrightwell, David Aaron 15 May 2009 (has links)
This dissertation examines three facets of U.S. energy use and policy. First, I examine the Gulf Coast petroleum refining industry to determine the structure of the industry. Using the duality between cost-minimization and production functions, I estimate the demand for labor to determine the underlying production function. The results indicate that refineries have become more capital intensive due to the relative price increase of labor. The industry has consolidated in response to higher labor costs and costs of environmental compliance.
Next, I examine oil production in the United States. An empirical model based on the theoretical framework of Pindyck is used to estimate production. This model differs from previous research by using state level data rather than national level data. The results indicate that the production elasticity with respect to reserves and the price elasticity of supply are both inelastic in the long run. The implication of these findings is that policies designed to increase domestic production through subsidies, tax breaks, or royalty reductions will likely provide little additional oil. We simulate production under three scenarios. In the most extreme scenario, prices double between 2005 and 2030 while reserves increase by 50%. Under this scenario, oil production in 2030 is approximately the same as the 2005 level. The third essay estimates demand for fossil fuels in the U.S. and uses these estimates to forecast CO2 emissions. The results indicate that there is almost no substitution from one fossil fuel to another and that all three fossil fuels are inelastic in the long run. Additionally, all three fuels respond differently to changes in GDP. The result of the differing elasticities with respect to GDP is that the energy mix has changed over time. The implication for forecasting CO2 emissions is that models that cannot distinguish changes in the energy mix are not effective in forecasting CO2 emissions.
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Evolução do refino de petróleo no Brasil / Evolution of petroleum refining in BrazilJuarez Barbosa Perisse 17 August 2007 (has links)
Este trabalho tem por objetivo apresentar a evolução da indústria do refino de petróleo no Brasil desde suas origens, sua evolução ao longo dos anos, explicitando as mudanças no perfil de produção, na matéria prima processada e na complexidade das nossas refinarias. Busca, também, apresentar os próximos passos para o refino de petróleo nacional, seus desafios face a produção de petróleos pesados e ácidos, bem como os impactos provocados pela necessidade de produção de derivados com especificações cada vez mais restritivas e com menor impacto ambiental. Optou-se pelo hidrorrefino como o primeiro grande passo para os próximos anos concluindo-se que unidades para o hidrotratamento de correntes intermediárias ou mesmo produto final assumirão um papel fundamental nos futuros esquemas de refino. Outra vertente importante analisada foi a necessidade de aumento de conversão, ressaltando-se que o caminho hoje escolhido de implantação de Unidades de Coqueamento Retardado se esgota no início da próxima década abrindo caminho para a tecnologia de hidroconversão de resíduo. Com relação à qualidade da gasolina e do óleo diesel foi apresentada uma proposta de esquema de refino para permitir o atendimento de especificações mais rígidas / This thesis aims to present the oil refining industry in Brazil since its origin, its evolution along the years, showing the changes in the production profile, in the crude oils processed and in the complexity of our refineries. Tries, additionally, to present the next steps for the national oil refining industry, its challenges facing the acid and heavy crude oil production, besides the impacts coming from the necessity of producing derivatives with stricter specifications and reduced environmental impact. Hydro-refining is showed to be the option for the next years, once intermediary and final products hydro-treating will assume a fundamental role on future refining scheme. Another important issue analyzed was the increased conversion necessity, highlighting that the current solution adopted which is the delayed coking units reaches its deadline in the beginning of the next decade, opening the door for residuum hydro-conversion technology. Related to gasoline and diesel oil quality, a refining configuration proposal was presented in order to achieve tighter specifications
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Evolução do refino de petróleo no Brasil / Evolution of petroleum refining in BrazilJuarez Barbosa Perisse 17 August 2007 (has links)
Este trabalho tem por objetivo apresentar a evolução da indústria do refino de petróleo no Brasil desde suas origens, sua evolução ao longo dos anos, explicitando as mudanças no perfil de produção, na matéria prima processada e na complexidade das nossas refinarias. Busca, também, apresentar os próximos passos para o refino de petróleo nacional, seus desafios face a produção de petróleos pesados e ácidos, bem como os impactos provocados pela necessidade de produção de derivados com especificações cada vez mais restritivas e com menor impacto ambiental. Optou-se pelo hidrorrefino como o primeiro grande passo para os próximos anos concluindo-se que unidades para o hidrotratamento de correntes intermediárias ou mesmo produto final assumirão um papel fundamental nos futuros esquemas de refino. Outra vertente importante analisada foi a necessidade de aumento de conversão, ressaltando-se que o caminho hoje escolhido de implantação de Unidades de Coqueamento Retardado se esgota no início da próxima década abrindo caminho para a tecnologia de hidroconversão de resíduo. Com relação à qualidade da gasolina e do óleo diesel foi apresentada uma proposta de esquema de refino para permitir o atendimento de especificações mais rígidas / This thesis aims to present the oil refining industry in Brazil since its origin, its evolution along the years, showing the changes in the production profile, in the crude oils processed and in the complexity of our refineries. Tries, additionally, to present the next steps for the national oil refining industry, its challenges facing the acid and heavy crude oil production, besides the impacts coming from the necessity of producing derivatives with stricter specifications and reduced environmental impact. Hydro-refining is showed to be the option for the next years, once intermediary and final products hydro-treating will assume a fundamental role on future refining scheme. Another important issue analyzed was the increased conversion necessity, highlighting that the current solution adopted which is the delayed coking units reaches its deadline in the beginning of the next decade, opening the door for residuum hydro-conversion technology. Related to gasoline and diesel oil quality, a refining configuration proposal was presented in order to achieve tighter specifications
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Synthesis and characterization of Ir(III) metallacycles derived from thiophene and related compounds: models for the hydrodesulfurization processGrieb, Arthur L. 29 September 2009 (has links)
Researchers use metal-thiophene complexes to mimic reactions which occur inside hydrodesulfurization (HDS) reactors. Information obtained from these model studies may often be applied to understanding the mechanisms involved with commercially used catalysts. Certain mechanisms¹ for HDS propose thiophene ring cleavage,forming a metallacycle, prior to hydrogenation of one double bond. There are, however, limited examples of complexes derived from C-S cleavage.<sup>2,3,4</sup>
Thermal reactions of the iridium complex, [Ir(COD)(PMe<sub>3)3</sub>]Cl (COD=1,5- cyclooctadiene), with thiophene, thiazole, 4-methyl thiazole and 5-methyl thiazole yields the C-S addition metallacycles (Me₃P)₃Ir-(CH=CHCH=S)CI (I), \ (Me3P)3Ir-(CH=NCH=CHS)CI (II), (Me3P)3Ir-CCH=NC(CH3)=CHS)CI (III) and (Me3P)3Ir (CH=NCH=C(CH3)S)CI (IV), respectively. These compounds were characterized using the following methods: ¹H NMR, ¹³C NMR, ³¹P NMR, elemental analysis and single crystal x-ray diffraction.
Following C-S addition to [Ir(COD)(PMe3)3]CI, nitrogen present in the thiazoles exhibit enhanced nucleophilicity. For exmnple, compounds II-IV react with methylene chloride to form dimers: CH2[NCR=CR'SIr(Cl)(PMe3)3CH]2. The above compounds are soluble in water and react with PF6 salts liberating the chloride atom from the Ir center. pKb measurements were recorded as well.
This thesis describes the synthesis and examination of con1pounds I-IV as they may model the HDS process. Compounds II-IV represent the first examples of ring opened thiazole metallacycles with iridium. / Master of Science
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The fluidized retorting of oil shale from the Mahogany ledge of the Green River formation of ColoradoCarr, Jesse M. January 1955 (has links)
Considerable work has been done on the economic production of shale oil from oil shale. Of the possible materials which could replace crude petroleum as used today, oil shale possesses the greatest possibilities since, when retorted, it produces a shale oil very similar to crude petroleum, and on refining the products produced are similar. Of the fuel resources available in the United States, 98.8 percent is attributed to coal, 0.8 percent to oil shale, 0.2 percent to crude petroleum, and 0.2 percent to natural gas.
The purpose of this investigation was to study the effect of oil shale particle size on the shale oil obtained from oil shale retorted in a fluidized bed. Oil shale of minus 16 plus 28, minus 28 plus 70, minus 70 plus 100, and minus 100 plus 200 mesh (Tyler screen scale) was retorted at 715°F in a 4-inch diameter retort 36 inches long using carbon dioxide as the fluidizing medium. A retorting unit consisting of a fluidizing retort, fluidizing gas-heating section, disengaging section, cyclone separator, condensers, a surge tank, gas circulation system, and temperature measurement and control equipment was designed and constructed.
The fluidizing gas-heating section was constructed from a flanged 5-foot section of 8-inch diameter black iron pipe with eight 1250-watt heaters placed in the heating section at 6-inch intervals along the vertical axis. Additional heaters were provided on the gas transfer line to reduce the heating time.
The condensers were simple tube-in-shell heat exchangers constructed from 1-1/2-inch and 3/4-inch deoxidized copper pipe with headers for the oil receivers. The condensers were designed and constructed to operate counter-currently using return gas from the brine cooled condenser as the cooling medium in the first two condensers, water in the third condenser, and brine in the fourth condenser.
A gas circulation section consisting of a gas pump and appropriate valves was constructed to circulate the gas through the system. Temperature control and measuring equipment were provided for control of the gas temperature to the retort, and for measuring the temperature of the entering and exit material in each section.
On retorting 16-1/4 pounds of oil shale for one hour at a gas pressure of 10 pounds per square inch gage, yields of 50.5, 47.3, 40.9, and 39.4 percent of the available shale oil were obtained from oil shale of minus 16 plus 28, minus 28 plus 70, minus 70 plus 100, and minus 100 plus 200 mesh (Tyler screen scale), respectively.
The A.P.I. gravity was found to increase from 15.2, 17.9, 18.6, and 22.4 degrees, and the kinematic viscosity decrease from 12.18, 4.64, 2.94, and 1.66 centipoises for a decrease in particle size from minus 16 plus 28, minus 28 plus 70, minus 70 plus 100, and minus 100 plus 200 mesh (Tyler screen scale), respectively. The mid-boiling point of the shale oil decreased 510, 500, 482, and 380°F for the above particle sizes as did the average boiling point which decreased from 824, 724, 690, and 590 for oil shale of the same particle size.
The yield of non-condensable gases increased 0.67, 0.72, 1.01, and 1.2 cubic feet for oil shale of minus 16 plus 28, minus 28 plus 70, minus 70 plus 100, and minus 100 plus 200 mesh (Tyler screen scale).
A decrease in particle size of oil shale retorted at 715°F in a 4-inch fluidized retort using carbon dioxide as the fluidizing medium, was found to definitely reduce the mid-boiling point, average boiling point, and the kinematic viscosity of the shale oil, and to increase the A.P.I. gravity of the shale oil obtained as well as the volume of retort gas. / Master of Science
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Simulação e analise da coluna de destilação a vacuo da unidade de destilação de processos de refino de petroleo / Simulation and analysis of vacuum distillation column from distillation unit of petroleum refinery processesMaia, Júlio Pereira, 1978- 12 August 2018 (has links)
Orientador: Maria Regina Wolf Maciel / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Quimica / Made available in DSpace on 2018-08-12T12:30:40Z (GMT). No. of bitstreams: 1
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Previous issue date: 2007 / Resumo: Unidades de vácuo para destilação de petróleo são estudadas neste trabalho. A destilação a vácuo é empregada para frações pesadas do petróleo, com vastas aplicações em processamento de crus pesados e ultra-pesados, motivado pelas dificuldades em se processar estes crus a pressão atmosférica devido ao alto ponto de ebulição dos componentes em suas composições. Estes compostos podem ser facilmente decompostos se não forem destilados abaixo da pressão atmosférica. Os produtos obtidos desta unidade são usados como insumos para a Unidade de Craqueamento Catalítico (UCC). Adotaram-se dois tipos de crus neste trabalho. Estes crus foram estabelecidos e caracterizados em um ambiente de simulação. Diferentes blends dos óleos foram considerados. Como unidades de vácuo estão conectadas com unidades atmosféricas, ambas as unidades foram simuladas no estado estacionário. A unidade atmosférica foi simulada com os equipamentos auxiliares principais. Produtos da unidade atmosférica foram determinados, e procedimentos para ajustar as variáveis de sistema de forma a fazer com que os produtos estivessem
especificados foram apresentados. O projeto convencional de unidade de vácuo para produção de combustíveis foi o adotado para a simulação. Procedimentos para auxiliar a convergência da simulação desta unidade foram desenvolvidos. Uma análise de sensitividade foi conduzida, analisando as principais variáveis do sistema. Baseado nisso, um procedimento de otimização no estado estacionário foi adotado, levando em consideração os limites de convergência determinados para a análise de sensitividade. O sistema foi convertido do estado estacionário para se realizar uma simulação dinâmica. A simulação dinâmica foi conduzida com mudanças no fluxo de alimentação da torre atmosférica. O estabelecimento desta plataforma de simulação e sua disponibilidade foram
muito importantes, bem como os resultados da simulação, por não ser facilmente encontrado na literatura aberta. Mais ainda, a grande complexidade deste processo de separação faz com que seja útil para treinamento de operadores. / Abstract: Vacuum units for petroleum distillation are studied in this work. Vacuum distillation is employed for heavy petroleum fractions, with large applications on heavy and ultra-heavy crude processing, motivated by difficulties in processing these crudes at atmospheric pressure, due to the boiling range of the compounds in their compositions. These compounds would be easily decomposed if they were not distillated under atmospheric pressure. The products obtained from this unit are used as feedstock for Fluid Catalytic Cracking Unit (FCCU). Two different petroleum crudes were adopted in this work. These petroleum were established and characterized in a simulation environment. Different blends from the oils were considered. As vacuum units in petroleum plants are connected with atmospheric units, both units were simulated in steady state. The atmospheric unit was simulated with the main auxiliary equipment. Products from atmospheric unit were set, and a procedure to set system variables in order to make the products to meet specifications was presented. The conventional design vacuum unit for fuels production was set to be simulated. Procedures to aim convergence of the simulation of this unit were developed. A sensitivity analysis was carried out, analyzing the main variables of the system. Based on it, an optimization procedure in steady state was applied, taking into consideration the convergence bounds set for the sensitivity analysis. The system was converted from steady state to perform a dynamic simulation. The dynamic simulation was carried out with changes in the atmospheric feed flow rate. The establishment of this simulation platform and its availability were very important as well as the results of the simulation, since this is not easily found in the open literature. Moreover, the large complexity of this separation process makes it useful for operator training. / Mestrado / Desenvolvimento de Processos Químicos / Mestre em Engenharia Química
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Energy retrofit of an oil refinery using pinch technologyGillespie, Noel Edward 22 November 2016 (has links)
No description available.
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Evaluation of the Impact of Process Design and Anthropometric Differences on the Chemical Exposure and Ergonomic Stress of Workers in the Petroleum IndustryWhitehead, Carson, Jr. January 2020 (has links)
No description available.
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Petroleum refining and air quality managementAbdullah, Abdul Hamid 09 November 2012 (has links)
Management of the air quality surrounding Petroleum Refineries deserves attention because the industry contributes almost five percent of the total emissions from all anthropogenic sources. A document containing a complete set of guidelines for use in the refining industry which satisfies the current and anticipated air quality legislations and regulations in the U.S. is necessary. In the past, several documents have been prepared, but have not included a complete coverage of the air quality management as currently needed. Furthermore, due to the continuing revisions of the Clean Air Act, a document with current, updated regulations and air quality management principles is necessary. This study dealt with a broad range of topics including characteristics of emissions, control technology applied, regulations and legislative issues, monitoring and modeling practices, and issues of the 1980s together with future projections and implications. Air quality regulations and standards are periodically revised and are becoming more stringent with time. Issues like acid rain may lead to even more stringent emission standards if investigations carried out currently reveal that the refineries are significant contributors. Great measures are taken to control emissions from the refineries either by using good control equipment or using other alternative control strategies. Small operating refineries are closing down due to changing conditions. An agglomeration and or expansion of the existing refining capacity is occuring. The air quality trends associated with this transition in the industry are discussed. / Master of Science
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