Otimiza??o de formula??o de pastas de cimento contendo bentonita para aplica??o em po?os petrol?feros com baixo gradiente de fratura
| Autor: | Marques, Jacqueline Ferreira Santos |
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| Jazyk: | portugalština |
| Rok vydání: | 2015 |
| Předmět: | |
| Zdroj: | Repositório Institucional da UFRNUniversidade Federal do Rio Grande do NorteUFRN. |
| Druh dokumentu: | masterThesis |
| Popis: | Submitted by Automa??o e Estat?stica (sst@bczm.ufrn.br) on 2016-02-05T23:04:43Z No. of bitstreams: 1 JacquelineFerreiraSantosMarques_DISSERT.pdf: 3556359 bytes, checksum: 513ccd80d1faa0aa4ab0703236b85dc4 (MD5) Approved for entry into archive by Arlan Eloi Leite Silva (eloihistoriador@yahoo.com.br) on 2016-02-16T22:34:40Z (GMT) No. of bitstreams: 1 JacquelineFerreiraSantosMarques_DISSERT.pdf: 3556359 bytes, checksum: 513ccd80d1faa0aa4ab0703236b85dc4 (MD5) Made available in DSpace on 2016-02-16T22:34:40Z (GMT). No. of bitstreams: 1 JacquelineFerreiraSantosMarques_DISSERT.pdf: 3556359 bytes, checksum: 513ccd80d1faa0aa4ab0703236b85dc4 (MD5) Previous issue date: 2015-02-09 A cimenta??o ? uma das opera??es mais importantes executadas entre as fases de perfura??o de um po?o. Quando essa cimenta??o n?o ? bem realizada, h? o risco de ocorrer falhas e fraturas, tanto na forma??o quanto no pr?prio cimento. Quando os reservat?rios possuem uma baixa profundidade, eles tendem a fraturar mais facilmente, devido ao seu baixo gradiente de fratura, por isso, a densidade da pasta de cimento ? de suma import?ncia para equil?brio das press?es, evitando problemas de fraturas. ? ela que vai garantir a estabilidade das press?es atuantes entre o po?o e a forma??o. Tendo em vista que s?o necess?rias pastas mais leves para promover o isolamento, sem que haja esse faturamento, ? necess?rio formular sistemas cimentantes que reduzam a press?o hidrost?tica da coluna de cimento. Para isso, s?o adicionados, ?s pastas, materiais com fun??es de reduzir a densidade. Portanto, este trabalho teve como objetivo otimizar formula??es de pastas de cimento de baixa densidade, contendo bentonita para aplica??o em po?os rasos e com baixo gradiente de fratura, como tamb?m comparar a efici?ncia do aditivo estendedor bentonita adicionado a estas pastas, atrav?s da varia??o das densidades e concentra??es e observa??o do comportamento das propriedades reol?gicas, estabilidade e resist?ncia ? compress?o. As pastas foram formuladas com os seguintes valores de densidades: 12,0 lb/gal; 12,5 lb/gal; 13,0 lb/gal e 13,5 lb/gal, com diferentes concentra??es de bentonita (1,0; 2,0; 3,0 e 4,0 %) para cada composi??o. Os resultados obtidos atrav?s dos testes reol?gicos mostraram que o incremento da concentra??o de bentonita proporcionou o aumento das part?culas dispersas no meio, provocando o aumento dos par?metros reol?gicos para todas as densidades. Nos testes de estabilidade os melhores resultados obtidos foram para densidades mais elevadas, se tornando mais est?veis com concentra??es a partir de 3 %, n?o apresentando rebaixamento. Nos testes de resist?ncia ? compress?o, a pasta com densidade de 13,5 lb/gal com concentra??o de 4,0% de bentonita obteve uma maior resist?ncia mec?nica, por?m, muito viscosa, o que pode ser dificultoso para o bombeamento. Atrav?s das caracteriza??es de difra??o de raios-X (DRX) da bentonita pura foi observado a presen?a das fases montmonrilonita e quartzo, caracter?sticos dessa argila. No DRX das pastas de cimento de 13,5 lb/gal foi observado que houve a presen?a de Etringita, portlandita, silicato de c?lcio e quartzo. Observou-se tamb?m que nas imagens obtidas por microscopia eletr?nica de varredura (MEV) a pasta de 13,5 lb/gal com 4 % de bentonita mostrou notoriamente a presen?a de agulhas de etringita, como tamb?m as fases de portlandita e silicato de c?lcio, produtos da hidrata??o do cimento. Por fim, pode-se considerar que as pastas que obtiveram melhores resultados, s?o as pastas com densidade de 13,5 lb/gal, com concentra??es de 2,0 % e 3,0 %, por serem mais est?veis e resistentes mecanicamente, comparadas com as demais com densidades menores. The cementing is one of the most important operations executed between the stages of drilling a oil well. When the cementation isn?t well performed, there?s the risk of to occur failures and fractures, both in formation as in the cement itself. When the reservoirs have low depth, they tend to fracture more easily, due to his low gradient of fracture, therefore, the density of the cement slurry is of utmost importance to balance the pressures, avoiding fractures problems. It?ll ensure the stability of the pressures acting between the oil well and the formation. Having in mind that are necessary paste more lightweight to promote the insulation, without there being this billing, is necessary to formulate cementing systems to reduce the hydrostatic pressure of the cement column. Thereunto, are added to folders, materials with functions to reduce the density. Therefore, this study had as objective formulations optimize of a cement slurry of low density containing bentonite for application in shallow oil wells and with low gradient of fracture, as well as to compare the efficiency of the bentonite extender additive added to these pastes, by of variations of the density and concentrations and observing of behavior of the rheological properties, stability and resistance to compression. The pastes were formulated with the follows density values: 12,0 lb/gal; 12,5 lb/gal; 13,0 lb/gal to 13,5 lb/gal with different concentrations of bentonite (1,0; 2,0; 3,0 and 4,0 %) for each composition. The results obtained through the rheological tests showed that the increase in the bentonite concentration afforded the increase in particles dispersed in the middle, leading to an increased of rheological parameters for all densities. In the stability tests the best results were obtained at higher densities, becoming more stable with concentrations from 3 %, showing no relegation. In the compressive strength tests, the paste with a density of 13,5 lb/gal with concentration of 4,0 % of bentonite got a higher mechanical strength, but very viscous, which may hinder the pumping. Through the characterization of X-ray diffraction (XRD) of pure bentonite was observed the presence of montmonrilonita and quartz phases which are typical of clay. The XRD of the cement pastes of 13,5 lb/gal was observed that there was the presence of etringite, portlandite, calcium silicate and quartz. It was also observed that the images obtained by scanning electron microscopy (SEM) the paste of 13,5 lb/gal with 4 % bentonite showed notoriously the presence of ettringite needles, as well as the steps of portlandite and calcium silicate cement hydration products. Finally, it can be considered that the paste have worked best, are the pastes with a density of 13,5 lb/gal, with concentrations of 2,0 % and 3,0 %, because they are more stable and mechanically strong, compared with the other with lower densities. |
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