Abstract
Water-based mud is the most-used mud for oil and gas exploration and is generally considered to be more environmentally friendly than oil-based or synthetic-based mud. Therefore in this study we focused on water-based mud and a series of nonionic surfactants derived from tannic acid was evaluated as additives for water-based muds. The rheological properties for formulated water-based muds contain nonionic additives at different temperatures were investigated including: apparent viscosity, plastic viscosity, yield point, gel strength, thixotropy and filtration properties. In addition to the relation between shear stress and shear rate were presented at different temperatures. The results of the studied nonionic surfactant showed improvements in the rheological properties when used as additives for water-based mud formulation.
Similar content being viewed by others
References
Skalli L, Buckley JS, Zhang Y, Morrow NR (2006) Surface and core wetting effects of surfactants in oil-based drilling fluids. J Petrol Sci Eng 52:253–260
Quintero L (2002) An overview of surfactants applications in drilling fluids for the petroleum industry. J Dispers Sci Technol 23:393–404
Yan J, Sharma MM (1989) Wettability alteration and restoration for cores contaminated with oil-based muds. J Pet Sci Eng 2:63–76
Adibhatla B, Mohanty KK, Berger P, Lee C (2006) Effect of surfactants on wettability of near-wellbore regions of gas reservoirs. J Pet Sci Eng 52:227–236
Audibert A, Dalmazzone C (2006) Surfactant system for water based well fluids. J Colloid Surf A 288:113–120
Feng Z, Hongming T, Yingfeng M, Gao L, Xijin X (2009) Damage evaluation for water-based underbalanced drilling in low-permeability and tight sandstone gas reservoirs. Pet Explor Dev 36:113–119
Mahmoud SA, Dardir MM (2011) Synthesis and evaluation of a new cationic surfactant for oil-well drilling fluid. J Surfact Deterg 14:123–130
Dardir MM, Hafiz AA (2013) Esteramide as an environmentally friendly synthetic based drilling fluids. J American Sci 9:133–142
Ghiuba FM, Mahmoud SA, Dardir MM (2010) Synthesis and evaluation of novel polymeric phosphate surfactants for oil-based muds. J Dispers Sci Technol 31:1011–1018
El-Sukkary MMA, Ghuiba FM, Sayed GH, Abdou MI, Badr EA, Tawfik SM, Negm NA (2014) Evaluation of some vanillin-modified polyoxyethylene surfactants as additives for water-based mud. Egypt J Pet 23:7–14
Sayed GH, Ghuiba FM, Abdou MI, Badr EA, Tawfik SM, Negm NA (2012) Synthesis, surface and thermodynamic parameters of some biodegradable nonionic surfactants derived from tannic acid. J Colloid Surf A 393:96–104
Aiad I, Tawfik SM, Shaban SM, Abd-Elaal A, El-Shafie M (2014) Enhancing of the corrosion inhibition and biocidal effect of the Phosphonium Surfactant compounds for oil fields equipments. J Surfact Deterg 17:391–401
Negm NA, Elkholy YM, Ghuiba FM, Zahran MK, Mahmoud SA, Tawfik SM (2011) Benzothiazol-3-ium cationic Schiff base surfactants: synthesis, surface activity and antimicrobial applications against pathogenic and sulfur reducing bacteria in oil fields. J Adsorp Sci Technol 32:512–518
Alsabagh AM, Abdou MI, Khalil AA, Ahmed HE, Aboulrous AA (2014) Investigation of some locally water-soluble natural polymers as circulation loss control agents during oil fields drilling. Egypt J Petrol 23:27–34
Dardir MM, Abdou MI (2013) Ether-Based muds show promise for replacing some oil-based muds. J Pet Sci Technol 31:2335–2347
Yan J, Wang Jiang F, Fan W, Su C (1997) A solid emulsifier used to improve the performance of oil-in-water drilling fluids. Soc Pet Eng 11:561–569
Hafiz AA, Abdou MI (2003) Synthesis and evaluation of polytriethanolamine monooleates for oil-based muds. J Surfact Deterg 6:243–251
Galal HS, Ghuiba FM, Abdou MI, Badr EA, Tawfik SM, Negm NA (2012) Synthesis, surface, thermodynamic properties of some biodegradable vanillin-modified polyoxyethylene surfactants. J Surfact Deterg 15:735–743
Negm NA, Elkholy YM, Zahran MK, Tawfik SM (2010) Corrosion inhibition efficiency and surface activity of benzothiazol-3-ium cationic Schiff base derivatives in hydrochloric acid. Corros Sci 52:3523–3536
Tawfik SM, Atef S, Aiad I (2012) Corrosion inhibition by some cationic surfactants in oil fields. J Surfact Deterg 15:577–585
Negm NA, Aiad IA, Tawfik SM (2010) Screening for potential antimicrobial activities of some cationic uracil biocides against wide spreading bacterial strains. J Surf Deterg 13:311–503
Abdou MI, EL-sayed Ahmed H (2011) Effect of particle size of bentonite on rheological behavior of the drilling mud. Pet Sci Technol 29:2220–2233
Nickdel T R (2007) Laboratory investigation of rheological properties of water based drilling muds, M. S. thesis, Petroleum University of Technology, Ahwaz, Iran
Hiller KH (1963) Rheological measurements on clay suspensions and drilling fluids at high temperature and pressures. J Pet Technol 10:779–789
Growcock F, Harvey T (2005) Drilling fluids processing handbook. Elsevier Inc. 57:155–203
Author information
Authors and Affiliations
Corresponding author
About this article
Cite this article
Negm, N.A., Tawfik, S.M., Abdou, M.I. et al. Evaluation of Some Nonionic Surfactants Derived from Tannic Acid as Additives for Water-Based Mud. J Surfact Deterg 18, 309–319 (2015). https://doi.org/10.1007/s11743-014-1627-9
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11743-014-1627-9