Effect of carboxymethylcellulose on colloidal properties of calcite suspensions in drilling fluids
Keila Regina Santana Fagundes; Railson Carlos da Souza Luz; Fabio Pereira Fagundes; Rosangela de Carvalho Balaban
Abstract
Keywords
References
Caraschi, J. C., & Campana, S. P. F. (1999). Influência do grau de substituição e da distribuição de substituintes sobre as propriedades de equilíbrio de carboximetilcelulose em solução aquosa.
Antti, G., Pentti, P., & Hanna, K. (2008). Ultrasonic degradation of aqueous carboxymethylcellulose: effect of viscosity, molecular mass, and concentration.
Britto, D., & Assis, O. B. G. (2009). Thermal degradation of carboxymethylcellulose in different salty forms.
Siqueira, E. J., Brochier Salon, M.-C., & Mauret, E. (2015). The effects of sodium chloride (NaCl) and residues of cellulosic fibres derived from sodium carboxymethylcellulose (NaCMC) synthesis on thermal and mechanical properties of CMC films.
Wang, W., & Wang, A. (2010). Nanocomposite of carboxymethyl cellulose and attapulgite as a novel pH-sensitive superabsorbent: Synthesis, characterization and properties.
Grządka, E. (2011). Competitive adsorption in the system: carboxymethylcellulose/surfactant/electrolyte/Al 2O3.
Ueno, T., Yokota, S., Kitaoka, T., & Wariishi, H. (2007). Conformational changes in single carboxymethylcellulose chains on a highly oriented pyrolytic graphite surface under different salt conditions.
Gibis, M., Schuh, V., Allard, K., & Weiss, J. (2017). Influence of molecular weight and degree of substitution of various carboxymethyl celluloses on unheated and heated emulsion-type sausage models.
Li, Z., Wang, Y., Pei, Y., Xiong, W., Xu, W., Li, B., & Li, J. (2017). Effect of substitution degree on carboxymethylcellulose interaction with lysozyme.
Mohammadi, M., Sadeghnia, N., Azizi, M., Neyestani, T., & Mortazavian, A. M. (2014). Development of gluten-free flat bread using hydrocolloids: Xanthan and CMC.
Wahid, R., Holt, R., Hjorth, R., & Scorza, F. B. (2016). Chemistry, manufacturing and control (CMC) and clinical trial technical support for influenza vaccine manufacturers.
Ernsting, M. J., Tang, W. L., Maccallum, N. W., & Li, S. D. (2012). Preclinical pharmacokinetic, biodistribution, and anti-cancer efficacy studies of a docetaxel-carboxymethylcellulose nanoparticle in mouse models.
Seid, K. A., Badot, J. C., Dubrunfaut, O., Levasseur, S., Guyomard, D., & Lestriez, B. (2012). Influence of the carboxymethyl cellulose binder on the multiscale electronic transport in carbon-LiFePO4 nanocomposites.
Zhang, L., Sun, H., Han, B., Peng, L., Ning, F., Jiang, G., & Chehotkin, V. F. (2016). Effect of shearing actions on the rheological properties and mesostructures of CMC, PVP and CMC + PVP aqueous solutions as simple water-based drilling fluids for gas hydrate drilling.
Luz, R. C. S., Fagundes, F. P., & Balaban, R. C. (2017). Water-based drilling fluids: the contribution of xanthan gum and carboxymethylcellulose on filtration control.
Backfolk, K., Lagerge, S., Rosenholm, J. B., & Eklund, D. (2002). Aspects on the Interaction between Sodium Carboxymethylcellulose and Calcium Carbonate and the Relationship to Specific Site Adsorption.
Tso, C.-P., & Shih, Y.-H. (2017). The influence of carboxymethylcellulose (CMC) on the reactivity of Fe NPs toward decabrominated diphenyl ether: The Ni doping, temperature, pH, and anion effects.
Beaussart, A., Mierczynska-Vasilev, A., & Beattie, D. A. (2010). Evolution of carboxymethyl cellulose layer morphology on hydrophobic mineral surfaces: Variation of polymer concentration and ionic strength.
Laskowski, J. S., Liu, Q., & O’Connor, C. T. (2007). Current understanding of the mechanism of polysaccharide adsorption at the mineral/aqueous solution interface.
Moyo, F., Tandlich, R., Wilhelmi, B. S., & Balaz, S. (2014). Sorption of Hydrophobic Organic Compounds on Natural Sorbents and Organoclays from Aqueous and Non-Aqueous Solutions: A Mini-Review.
Ganbaatar, N., Imai, K., Yano, T., & Hara, M. (2017). Surface force analysis of glycine adsorption on different crystal surfaces of titanium dioxide (TiO2).
Liu, Q., Zhang, Y., & Laskowski, J. S. (2000). The adsorption of polysaccharides onto mineral surfaces: an acid/base interaction.
Wiśniewska, M., Urban, T., Grządka, E., Zarko, V. I., & Gun’ko, V. M. (2014). Comparison of adsorption affinity of polyacrylic acid for surfaces of mixed silica–alumina.
American Petroleum Institute – API. (1997).
Shenoy, A. V. (1999).
Shaheen, E. I. (1972). Rheological study of viscosities and pipeline flow of concentrated slurries.
Darley, H. C. H., & Gray, G. R. (1988).
Somasundaran, P., & Agar, G. E. (1967). The zero point of charge of calcite.
Wang, J., & Somasundaran, P. (2005). Adsorption and conformation of carboxymethyl cellulose at solid–liquid interfaces using spectroscopic, AFM and allied techniques.
Atkin, R., Craig, V. S. J., Wanless, E. J., & Biggs, S. (2003). Mechanism of cationic surfactant adsorption at the solid-aqueous interface.