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Previous issue date: 2016-08-25 / Funda??o de Apoio ? Pesquisa Cient?fica e Tecnol?gica da UFRRJ / The filtration loss is a phenomenon caused by the gradient pressure between the annular region and the rock formation during the drilling of an oil and gas well under overbalanced conditions. The invasion of fluids may provoke irreversible damages to the integrity of the well due to the solids present in their composition. Therefore, drilling fluids must be formulated in such a way that a low permeability mudcake with controlled thickness is formed in order to mitigate the filtration and invasion. Filtration cells are experimental apparatus used in the industry and at universities to study the mudcake growth in the rock formation and to measure the filtrate volume. Such devices operate off line and require a specialized operator. The objective of this work was to optimize, automate and validate a static filtration prototype cell that collected experimental data in real time. An experimental unit was built to prepare the fluids and to feed them into the filtration prototype. This unit is composed of a positive displacement pump, mixing tanks and sensors to monitor the properties of the fluid. The unit and the prototype compose the on line filtration unit. In the filtration prototype, valves and sensors were installed to operate remotely. A virtual interface was developed in order to manage the filtration unit. This interface is capable of monitoring the data provided by the sensors as well as operating the equipments (pump, agitators and automatic valves, including the ones in the filtration cell). Comparative experiments were performed in a HTHP off line filtration cell using similar operational conditions to validate the prototype. As results, the filtrate volume and the filtration properties (porosity and permeability of the mudcake) values obtained for both cells shown to be similar. The on line filtration unit was capable of reproducing the data provided by the off line filtration cell used as a model in this work. Thus, one can conclude that the on line filtration cell operates appropriately. / A filtra??o e a invas?o do fluido de perfura??o s?o fen?menos provocados pelo diferencial de press?o entre a regi?o anular e a forma??o rochosa durante a perfura??o de um po?o de petr?leo e g?s sob condi??es overbalance. A invas?o de fluidos e s?lidos presentes no fluido de perfura??o podem causar danos irrevers?veis ao po?o, portanto formulam-se os fluidos de modo que seja formado um reboco de baixa permeabilidade e espessura controlada, minimizando a filtra??o e a invas?o. Na ind?stria e na academia, para estudar o crescimento da torta na forma??o rochosa e avaliar o volume de filtrado, utilizam-se aparatos experimentais, denominados c?lulas de filtra??o, entretanto estes dispositivos s?o aparatos de bancada necessitam de um operador especializado. O objetivo desse trabalho foi otimizar, automatizar e validar um prot?tipo de filtra??o est?tica que coleta dados em linha e em tempo real. Para alimentar o fluido no prot?tipo de filtra??o, foi constru?da uma unidade de prepara??o de fluidos composta por uma bomba de deslocamento positivo, tanques de mistura e sensores para monitorar as propriedades do fluido. A unidade de preparo e o prot?tipo de filtra??o constituem a denominada unidade de filtra??o. No prot?tipo de filtra??o, foram instaladas v?lvulas e sensores para opera??o remota. Para gerenciar a unidade de filtra??o, foi desenvolvida uma interface virtual que monitora os dados fornecidos pelos sensores e opera os equipamentos (bomba, agitadores e as v?lvulas autom?ticas, inclusive as da c?lula de filtra??o). Para validar o prot?tipo, foram realizados experimentos comparativos com uma c?lula de filtra??o HTHP de bancada em condi??es de opera??o semelhantes. Como resultado das filtra??es na c?lula de bancada e com o prot?tipo, foi observado que o volume de filtrado e propriedades calculadas nos experimentos de filtra??o (porosidade e permeabilidade da torta) apresentaram valores similares indicando que a c?lula on line opera de forma adequada, reproduzindo os dados da c?lula de bancada que foi usada como modelo na proposta deste trabalho.
Identifer | oai:union.ndltd.org:IBICT/oai:localhost:jspui/1581 |
Date | 25 August 2016 |
Creators | BARBOSA, Renan Fraga |
Contributors | CAL?ADA, Lu?s Am?rico, SCHEID, Cl?udia Miriam, Cal?ada, Lu?s Am?rico, Queiroz Neto, Jo?o Cris?sthomo de, Peixoto, Fernando Cunha |
Publisher | Universidade Federal Rural do Rio de Janeiro, Programa de P?s-Gradua??o em Engenharia Qu?mica, UFRRJ, Brasil, Instituto de Tecnologia |
Source Sets | IBICT Brazilian ETDs |
Language | Portuguese |
Detected Language | English |
Type | info:eu-repo/semantics/publishedVersion, info:eu-repo/semantics/masterThesis |
Format | application/pdf |
Source | reponame:Biblioteca Digital de Teses e Dissertações da UFRRJ, instname:Universidade Federal Rural do Rio de Janeiro, instacron:UFRRJ |
Rights | info:eu-repo/semantics/openAccess |
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