Wellbore Stability through Novel Catechol-Chitosan Biopolymer Encapsulator-Based Drilling Mud

The problem of wellbore stability has a marked impact on oil and gas exploration and development in the process of drilling. Marine mussel proteins can adhere and encapsulate firmly on deep-water rocks, providing inspiration for solving borehole stability problem and this ability comes from catechol...

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Published in	Gels Vol. 8; no. 5; p. 307
Main Authors	Tang, Zhichuan, Qiu, Zhengsong, Zhong, Hanyi, Kang, Yujie, Guo, Baoyu
Format	Journal Article
Language	English
Published	Switzerland MDPI AG 16.05.2022 MDPI
Subjects	Aluminum Amines Aromatic compounds biopolymer Biopolymers Boreholes Catechol Chemical reduction chemical strengthening Chitosan Compressive strength Covalent bonds Deepwater drilling Drilling fluids Drilling muds Encapsulation encapsulator Fluids Fourier transforms High temperature Hot rolling Hydration Hydrocarbons Imines Nanoparticles Oil exploration Rheological properties Ring structures Shear strength Sodium Spectrum analysis Stability water-based drilling fluids wellbore stability encapsulator biopolymer chemical strengthening wellbore stability water-based drilling fluids
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Abstract	The problem of wellbore stability has a marked impact on oil and gas exploration and development in the process of drilling. Marine mussel proteins can adhere and encapsulate firmly on deep-water rocks, providing inspiration for solving borehole stability problem and this ability comes from catechol groups. In this paper, a novel biopolymer was synthesized with chitosan and catechol (named "SDGB") by Schiff base-reduction reaction, was developed as an encapsulator in water-based drilling fluids (WBDF). In addition, the chemical enhancing wellbore stability performance of different encapsulators were investigated and compared. The results showed that there were aromatic ring structure, amines, and catechol groups in catechol-chitosan biopolymer molecule. The high shale recovery rate demonstrated its strong shale inhibition performance. The rock treated by catechol-chitosan biopolymer had higher tension shear strength and uniaxial compression strength than others, which indicates that it can effectively strengthen the rock and bind loose minerals in micro-pore and micro-fracture of rock samples. The rheological and filtration property of the WBDF containing catechol-chitosan biopolymer is stable before and after 130 °C/16 h hot rolling, demonstrating its good compatibility with other WBDF agents. Moreover, SDGB could chelate with metal ions, forming a stable covalent bond, which plays an important role in adhesiveness, inhibition, and blockage.
AbstractList	The problem of wellbore stability has a marked impact on oil and gas exploration and development in the process of drilling. Marine mussel proteins can adhere and encapsulate firmly on deep-water rocks, providing inspiration for solving borehole stability problem and this ability comes from catechol groups. In this paper, a novel biopolymer was synthesized with chitosan and catechol (named “SDGB”) by Schiff base-reduction reaction, was developed as an encapsulator in water-based drilling fluids (WBDF). In addition, the chemical enhancing wellbore stability performance of different encapsulators were investigated and compared. The results showed that there were aromatic ring structure, amines, and catechol groups in catechol-chitosan biopolymer molecule. The high shale recovery rate demonstrated its strong shale inhibition performance. The rock treated by catechol-chitosan biopolymer had higher tension shear strength and uniaxial compression strength than others, which indicates that it can effectively strengthen the rock and bind loose minerals in micro-pore and micro-fracture of rock samples. The rheological and filtration property of the WBDF containing catechol-chitosan biopolymer is stable before and after 130 °C/16 h hot rolling, demonstrating its good compatibility with other WBDF agents. Moreover, SDGB could chelate with metal ions, forming a stable covalent bond, which plays an important role in adhesiveness, inhibition, and blockage.
Author	Zhong, Hanyi Tang, Zhichuan Kang, Yujie Qiu, Zhengsong Guo, Baoyu
AuthorAffiliation	2 Drilling Technology Research Institute, Shengli Petroleum Engineering Corporation Limited of SINOPEC, Donying 257064, China; guobaoyu719.slyt@sinopic.com 1 School of Petroleum Engineering, China University of Petroleum (East China), No. 66 Changjiang West Road, Economic & Technical Development Zone, Qingdao 266580, China; b17020063@s.upc.edu.cn (Z.T.); zhonghanyi@126.com (H.Z.); 17854210608@163.com (Y.K.)
AuthorAffiliation_xml	– name: 2 Drilling Technology Research Institute, Shengli Petroleum Engineering Corporation Limited of SINOPEC, Donying 257064, China; guobaoyu719.slyt@sinopic.com – name: 1 School of Petroleum Engineering, China University of Petroleum (East China), No. 66 Changjiang West Road, Economic & Technical Development Zone, Qingdao 266580, China; b17020063@s.upc.edu.cn (Z.T.); zhonghanyi@126.com (H.Z.); 17854210608@163.com (Y.K.)
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Copyright	2022 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/). Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. 2022 by the authors. 2022
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Snippet	The problem of wellbore stability has a marked impact on oil and gas exploration and development in the process of drilling. Marine mussel proteins can adhere...
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StartPage	307
SubjectTerms	Aluminum Amines Aromatic compounds biopolymer Biopolymers Boreholes Catechol Chemical reduction chemical strengthening Chitosan Compressive strength Covalent bonds Deepwater drilling Drilling fluids Drilling muds Encapsulation encapsulator Fluids Fourier transforms High temperature Hot rolling Hydration Hydrocarbons Imines Nanoparticles Oil exploration Rheological properties Ring structures Shear strength Sodium Spectrum analysis Stability water-based drilling fluids wellbore stability
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Title	Wellbore Stability through Novel Catechol-Chitosan Biopolymer Encapsulator-Based Drilling Mud
URI	https://www.ncbi.nlm.nih.gov/pubmed/35621605 https://www.proquest.com/docview/2670157953/abstract/ https://search.proquest.com/docview/2671273892 https://pubmed.ncbi.nlm.nih.gov/PMC9141550 https://doaj.org/article/3e6c4802943f4b79a24394d8350052bf
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