A New Type of Sulfobetaine Surfactant with Double Alkyl Polyoxyethylene Ether Chains for Enhanced Oil Recovery

Journal of Surfactants and Detergents - Tập 19 - Trang 967-977 - 2016
Peiqian Li1, Cheng Yang1, Zhenggang Cui1, Binglei Song1, Jianzhong Jiang1, Zhijun Wang2
1The Key Laboratory of Food Colloids and Biotechnology, Ministry of Education, School of Chemical and Material Engineering, Jiangnan University, Wuxi, People’s Republic of China
2Solvay (China) Co., Ltd., Shanghai, People’s Republic of China

Tóm tắt

A new type of sulfobetaine with double alkyl polyoxyethylene (n) ether chains, dicoconut oil alcohol polyoxethylene (n) ether methylhydroxylpropyl sulfobetaine (diC12–14E n HSB) was synthesized using a commercial nonionic surfactant, coconut oil alcohol polyoxethylene (n) ether, as raw material and its properties as a surfactant for enhanced oil recovery (EOR) in the absence of alkali was studied. The purified product is a mixture of homologues with mainly C12/C12, C12/C14 and C14/C14 alkyl chains and widely distributed EO chains (n = 2.2 on average) with an average molar mass of 742.6 g/mol. The diC12–14E2.2HSB has an improved aqueous solubility at 25 °C compared with didodecylmethylhydroxylpropyl sulfobetaine (diC12HSB), a homologue without an EO chain, and is highly surface active as reflected by its low CMC (4.6 × 10−6 mol/L), high saturated adsorption (6.8 × 10−10 mol/cm2) and small cross sectional area (0.24 nm2/molec.) at the air/water interface. With a hydrophile–lipophile balance well matched with Daqing crude oil/connate water system, the sulfobetaine can reduce Daqing crude oil/connate water interfacial tension to ultra-low values at 45 °C in the absence of alkali, and displays a low saturated adsorption at the sandstone/water interface (0.0024 mmol/g), reduced by 69 and 92 % respectively in comparison with that of the corresponding carboxyl betaine, diC12–14E2.2B and its homologue without an EO chain, didodecylmethylcarboxyl betaine (diC12B). With these excellent properties diC12–14E2.2HSB gives a high tertiary recovery, 18.4 % original oil in place, when mixed with other hydrophobic and hydrophilic sulfobetaines in surfactant-polymer (SP) flooding free of alkali. The insertion of EO chains in combination with the replacement of carboxyl betaine by sulfobetaine is therefore very efficient for improving the properties of the double chain hydrophobic carboxyl betaines as surfactants for SP flooding free of alkali.

Tài liệu tham khảo

Taber JJ (1980) Research on enhanced oil recovery: past, present and future. Pure Appl Chem 52:1323–1347

Babadagli T (2007) Development of mature oil fields—a review. J Pet Sci Eng 57:221–246

Olajire AA (2014) Review of ASP EOR technology in the petrol industry: prospects and challenges. Energy 77:963–982

Sheng JJ (2014) A comprehensive review of alkali-surfactant-polymer (ASP) flooding. Asia-Pac J Chem Eng 9:471–489

Zhu YY, Hou QF, Jian GQ, Ma DS, Wang Z (2013) Current development and application of chemical combination flooding technique. Pet Explor Dev 40(1):96–103

Höök M, Tang X, Pang XQ, Aleklett K (2010) Development journey and outlook of Chinese giant oilfields. Pet Explor Dev 37(2):237–249

Zhu YY, Zhang Y, Niu JL, Liu WD, Hou QF (2012) The research progress in the alkali-free surfactant-polymer combination flooding technique. Pet Explor Dev 39(3):371–376

Bai YR, Xiong CM, Shang XS, Xin YY (2014) Experimental study on ethanolamine/surfactant flooding for enhanced oil recovery. Energy Fuels 28:1829–1837

Sharma H, Dufour S, Arachchilage GWPP, Weerasooriya U, Pope GA, Mohanty K (2015) Alternative alkalis for ASP flooding in anhydrite containing oil reservoirs. Fuel 140:407–420

Berger PD, Lee CH (2002) Ultra low concentration surfactants for sandstone and limestone floods, presented at the 2002 SPE/DOE improved oil recovery symposium. Tulsa Oklahoma. SPE 75186

Zhang S, Xu Y, Qiao W, Li Z (2004) Interfacial tensions upon the addition of alcohols to phenylalkane sulfonate monoisomer systems. Fuel 83:2059–2063

Rosen MJ, Wang H, Shen P, Zhu Y (2005) Ultra low interfacial tension for enhanced oil recovery at very low surfactant concentrations. Langmuir 21:3749–3756

Xu Z, Li P, Qiao W, Li Z, Cheng L (2006) Effect of aromatic ring in the alkyl chain on surface properties of arylalkyl surfactant solutions. J Surfactants Deterg 9:245–248

Zhao Z, Liu F, Qiao W, Li Z, Cheng L (2006) Novel alkyl methylnaphthalene sulfonate surfactants: a good candidate for enhanced oil recovery. Fuel 85:1815–1820

Aoudia M, Al-Shibli MN, Al-Kasimi LH, Al-Maamari R, Al-Bemani A (2006) Novel surfactants for ultra low interfacial tension in a wide range of surfactant concentration and temperature. J Surfactants Deterg 9:287–293

Iglauer S, Wu Y, Shuler P, Tang Y, Goddard WA III (2009) Alkyl polyglycoside surfactant–alcohol cosolvent formulations for improved oil recovery. Coll Surf A 339:48–59

Iglauer S, Wu Y, Shuler P, Tang Y, Goddard WA III (2010) New surfactant classes for enhanced oil recovery and their tertiary oil recovery potential. J Pet Sci Eng 71:23–29

Cui ZG, Song HX, Yu JJ, Jiang JZ, Wang F (2011) Synthesis of N-(3-oxapropanoxyl) dodecanamide and its application in surfactant–polymer flooding. J Surfactants Deterg 14:317–324

Cui ZG, Du XR, Pei XM, Jiang JZ, Wang F (2012) Synthesis of didodecylmethyl carboxyl betaine and its application in surfactant–polymer flooding. J Surfactants Deterg 15:685–694

Wu WX, Yan W, Liu CD (2007) The results of core flooding experiment by sulfobetaine/polymer combinational system. Oilfield Chem 24(1):57–62

Xia HF, Wang G, Ma WG, Liu CD, Wang YW (2008) Influence of viscoelasticity and interfacial tension of non-alkali binary compound solution on recovery efficiency of residual oil after water flooding. Acta Pet Ei Sin 29:106–115

Ma T, Shao HY, Wang HB, Jiang P, Wei TJ, Tang DZ (2008) A laboratory study of the composite two-component oil-displacement system without alkali. China Offshore Oil Gas 20(1):41–47

Zhao JH, Dai CL, Ding QF, Du MY, Feng HS, Wei ZY, Chen A, Zhao MW (2015) The structure effect on the surface and interfacial properties of zwitterionic sulfobetaine surfactants for enhanced oil recovery. RSC Adv 5:13993–14001

Jiang P, Li N, Ge JJ, Zhang GC, Wang Y, Chen LF, Zhang L (2014) Efficiency of a sulfobetaine-type surfactant on lowering IFT at crude oil–formation water interface. Coll Surf A 443:141–148

Zhou ZH, Zhang Q, Liu Y, Wang HZ, Cai HY, Zhang F, Tian MZ, Liu ZY, Zhang L (2014) Effect of fatty acids on interfacial tensions of novel sulfobetaines solutions. Energy Fuels 28:1020–1027

Zhang QQ, Cai BX, Gang HZ, Yang SZ, Mu BZ (2014) A family of novel bio-based zwitterionic surfactants derived from oleic acid. RSC Adv 4:38393–38396

Berger PD, Lee CH (2002) New anionic alkylaryl surfactants based on olefin sulfonic acids. J Surfactants Deterg 5:39–43

Lu J, Liyanage PJ, Solairaj S, Adkins S, Arachchilage GP, Kim DH, Britton C, Weerasooriya U, Pope GA (2014) New surfactant developments for chemical enhanced oil recovery. J Pet Sci Eng 120:94–101

Qiao WH, Cui YC, Zhu YY, Cai HY (2012) Dynamic interfacial tension behaviors between Guerbet betaine surfactants solution and Daqing crude oil. Fuel 102:746–750

Cui ZG, Wu L, Sun MM, Jiang JZ, Wang F (2011) Synthesis of dodecyllauroyl benzenesulfonate and its application in enhanced oil recovery. Tensides Surf Det 48:408–414

Cui ZG, Li W, Qi JJ, Wang HJ (2012) Individual and mixed adsorption of alkylcarboxylbetaines and fatty amide ethoxylates at Daqing sandstone/water interface. Coll Surf A 414:180–189

Cui ZG, Qi D, Song BL, Pei XM, Hu X (2016) Inhibiting hydrophobization of sandstones via adsorption of alkyl carboxyl betaines in SP flooding by using a poly alkylammonium bromides. Energy Fuels 30:2043–2051

Neustadter EL (1984) In: Tadros TF (ed) Surfactants, chapter 11. Academic Press, London

Rosen MJ, Kunjappu JT (2012) Surfactants and interfacial phenomena, 4th edn, chapter 1. Wiley, Hoboken

Hou LY, Zhang HN, Chen H, Xia QB, Huang DY, Meng L, Liu XF (2014) Synthesis and surface properties of N, N-dimethyl-N-dodecyl polyoxyethylene amine-based surfactants: amine oxide, betaine and sulfobetaine. J Surfactants Deterg 17:403–408

Song BL, Hu X, Shui XQ, Cui ZG, Wang ZJ (2016) A new type of renewable surfactants for enhanced oil recovery: dialkylpolyoxyethylene ether methyl carboxyl betaines. Coll Surf A 489:433–440

Thông tin
Thông tin xuất bản

Journal of Surfactants and Detergents

Tập 19

967-977

Thông tin tác giả