Jiangen Xu scite author profile

In order to develop high-performance water-based drilling fluid with the aim of meeting the increasing requirement of drilling industry, highly inhibitive and high-temperature-resistant shale inhibitors are essential. In this study, 4, 4 0 -methylenebis-cyclohexanamine was introduced as a potential shale inhibitor. The inhibitive properties of the amine compound in comparison with currently available polyether diamine inhibitor were evaluated using bentonite inhibition test, shale cuttings hot-rolling dispersion test, linear swelling test, and pressure transmission test. The inhibitive mechanism was investigated with zeta potential measurement, X-ray diffraction analysis, and contact angle measurement. The results indicated that 4, 4 0 -methylenebis-cyclohexanamine can inhibit shale hydration and dispersion effectively, and prevent pressure transmission to a certain extent, performing better than that of polyether diamine. Furthermore, the new diamine provides reliable thermal stability as high as 220°C, preserving the benefits of high-temperature wells application. This novel diamine inhibits shale hydration and dispersion with the combination of chemical inhibition and physical plugging. The intercalation into the interlayer of clay with monolayer collapses the hydrated clay structure and expels the water molecules. After adsorption, clay surface became more hydrophobic, which prevents the imbibition of water. The variation of solubility separates the compound from the solution, which can plug the micro-pores of shale and prevent fluid invasion.

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Study of 1-Octyl-3-methylimidazolium bromide for inhibiting shale hydration and dispersion

Qiu

Zhao

et al. 2019

Journal of Petroleum Science and Engineering

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Inhibitory effect of water-based drilling fluid on methane hydrate dissociation

Zhao

Qiu

Chao

et al. 2019

Chemical Engineering Science

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Preparation and performance properties of polymer latex SDNL in water-based drilling fluids for drilling troublesome shale formations

Qiu

Huang

et al. 2017

Journal of Natural Gas Science and Engineering

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Hydrophobic modified polymer based silica nanocomposite for improving shale stability in water-based drilling fluids

Qiu

Zhao

et al. 2017

Journal of Petroleum Science and Engineering

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Jiangen Xu

Study of 4, 4′-methylenebis-cyclohexanamine as a high temperature-resistant shale inhibitor

Study of 1-Octyl-3-methylimidazolium bromide for inhibiting shale hydration and dispersion

Inhibitory effect of water-based drilling fluid on methane hydrate dissociation

Preparation and performance properties of polymer latex SDNL in water-based drilling fluids for drilling troublesome shale formations

Hydrophobic modified polymer based silica nanocomposite for improving shale stability in water-based drilling fluids

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