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Contribui??o da poliacrilamida parcialmente hidrolisada em associa??o com a bentonita em fluidos de perfura??o aquosos

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Previous issue date: 2015-07-24 / Neste trabalho, foi investigado o efeito da adi??o de poliacrilamida parcialmente hidrolisada
(HPAM) e bentonita nas propriedades f?sico-qu?micas de fluidos de perfura??o aquosos.
Duas formula??es foram avaliadas: a formula??o F1, que foi utilizada como refer?ncia,
contendo carboximetilcelulose (CMC), ?xido de magn?sio (MgO), calcita (carbonato de
c?lcio ? CaCO3
), goma xantana, cloreto de s?dio (NaCl) e triazina (bactericida); e a
formula??o F2, contendo HPAM em substitui??o a CMC e bentonita em substitui??o ?
calcita. Os fluidos preparados foram caracterizados quanto ?s propriedades reol?gicas,
a lubricidade e o volume de filtrado. A calcita foi caracterizada por granulometria e
an?lise termogravim?trica (TGA). A formula??o F2 apresentou controle de filtra??o ?
temperatura de 93 ?C 34 mL, enquanto a F1 apresentou filtra??o total. O coeficiente de
lubricidade da formula??o F2 foi 0, 1623 e o da F1 0, 2542, acarretando uma redu??o de
torque de 25% para F1 e de 52% para F2, comparado ? ?gua. Na temperatura de 49
?C e taxa de cisalhamento 1022 s
?1
, as viscosidades aparentes foram 25, 5 e 48 cP para
as formula??es F1 e F2, respectivamente, evidenciando maior resist?ncia t?rmica para
F2. Com a comprova??o da maior estabilidade t?rmica de F2, um planejamento fatorial
foi realizado, a fim de determinar as concentra??es de HPAM e de bentonita de melhor
desempenho nos fluidos. O planejamento estat?stico gerou superf?cies de resposta indicando
as melhores concentra??es de HPAM (4, 3 g/L) e de bentonita (28, 5 g/L) para se alcan?ar
propriedades melhoradas dos fluidos (viscosidade aparente, viscosidade pl?stica, limite
de escoamento e volume de filtrado) com 95% de confian?a, assim como as correla??es
entre esses fatores (concentra??es de HPAM e bentonita). Os testes de envelhecimento
t?rmico indicaram que as formula??es contendo HPAM e bentonita podem ser utilizadas ?
temperatura m?xima de 150 ?C. A an?lise do reboco formado ap?s filtra??o dos fluidos por
Difra??o de Raios X indicou intera??es espec?ficas entre a HPAM e a bentonita, justificando
a maior estabilidade t?rmica do fluido F2 comparado ao F1, que suporta temperatura
m?xima de 93 ?C. / In this study, we investigated the effect of addition of partially hydrolyzed polyacrylamide
(HPAM) and bentonite in the physicochemical properties of acquous drilling fluids. Two
formulations were evaluated: F1 formulation, which was used as reference, containing
carboxymethylcellulose (CMC), magnesium oxide (MgO), calcite (calcium carbonate
- CaCO3
), xanthan gum, sodium chloride (NaCl) and triazine (bactericidal); and F2,
containig HPAM steady of CMC and bentonite in substituition of calcite. The prepared
fluids were characterized by rheological properties, lubricity and fluid loss. Calcite was
characterized by granulometry and thermal gravimetric analysis (TGA). The formulation
F2 presented filtration control at 93?C 34 mL while F1 had total filtration. The lubricity
coefficient was 0.1623 for F2 and 0.2542 for F1, causing reduction in torque of 25% for
F1 and 52 % for F2, compared to water. In the temperature of 49 ?C and shear rate
of 1022 s
?1
, the apparent viscosities were 25, 5 and 48 cP for F1 and F2 formulation,
respectively, showing greater thermal resistance to F2. With the confirmation of higher
thermal stability of F2, factorial design was conducted in order to determine the HPAM
and of bentonite concentrations that resulted in the better performance of the fluids. The
statistical design response surfaces indicated the best concentrations of HPAM (4.3g/L)
and bentonite (28.5 g/L) to achieve improved properties of the fluids (apparent viscosity,
plastic viscosity, yield point and fluid loss) with 95% confidence, as well as the correlations
between these factors (HPAM and bentonite concentrations). The thermal aging tests
indicated that the formulations containing HPAM and bentonite may be used to the
maximum temperature until 150 ?C. The analyze of the filter cake formed after filtration of
fluids by X-ray diffraction showed specific interactions between the bentonite and HPAM,
explaining the greater thermal stability of F2 compared to the fluid F1, that supports
maximum temperature of 93 ?C.

Identiferoai:union.ndltd.org:IBICT/oai:repositorio.ufrn.br:123456789/20287
Date24 July 2015
CreatorsCosta, Rosimeire Filgueira
Contributors65946499734, http://lattes.cnpq.br/7711521318854102, Fagundes, F?bio Pereira, 02534180460, http://lattes.cnpq.br/8770334212266182, Bicudo, Tatiana de Campos, 25935096862, http://lattes.cnpq.br/2712586287719863, Balaban, Ros?ngela de Carvalho
PublisherUniversidade Federal do Rio Grande do Norte, PROGRAMA DE P?S-GRADUA??O EM QU?MICA, UFRN, Brasil
Source SetsIBICT Brazilian ETDs
LanguagePortuguese
Detected LanguageEnglish
Typeinfo:eu-repo/semantics/publishedVersion, info:eu-repo/semantics/masterThesis
Sourcereponame:Repositório Institucional da UFRN, instname:Universidade Federal do Rio Grande do Norte, instacron:UFRN
Rightsinfo:eu-repo/semantics/openAccess

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