Melamine-modified polyacrylic grafted on activated carbon and its efficiency for shale inhibition

This work reports on the synthesis of allyl-activated carbon modified with polyacrylic and then aminated by melamine. The obtained melamine-modified polyacrylic grafted activated carbon (C-g-AM) was then characterized for structural and morphological properties. The synthesized C-g-AM was characteri...

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Published inUpstream Oil and Gas Technology Vol. 8; p. 100065
Main Authors Nur, Mulya M., Saleh, Tawfik A.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.02.2022
Subjects
Aminated acrylic acid
Drilling fluid
Environment
oil
Polyacrylic
Polymer
Shale
oil
Shale
Drilling fluid
Aminated acrylic acid
Polymer
Polyacrylic
Environment
Online AccessGet full text
ISSN2666-2604
2666-2604
DOI10.1016/j.upstre.2022.100065

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Abstract This work reports on the synthesis of allyl-activated carbon modified with polyacrylic and then aminated by melamine. The obtained melamine-modified polyacrylic grafted activated carbon (C-g-AM) was then characterized for structural and morphological properties. The synthesized C-g-AM was characterized by several tools. This was followed by an evaluation of the inhibitive ability of the material by performing various inhibition tests, including shale recovery, anti-swelling, and immersion tests. 2 wt% C-g-AM effectively decreased water invasion into shale, because the combination of activated carbon as a core-center particle with the melamine–polyacrylic acid component is absorbed on clay surface through hydrogen bonds and electrostatic interactions.
AbstractList This work reports on the synthesis of allyl-activated carbon modified with polyacrylic and then aminated by melamine. The obtained melamine-modified polyacrylic grafted activated carbon (C-g-AM) was then characterized for structural and morphological properties. The synthesized C-g-AM was characterized by several tools. This was followed by an evaluation of the inhibitive ability of the material by performing various inhibition tests, including shale recovery, anti-swelling, and immersion tests. 2 wt% C-g-AM effectively decreased water invasion into shale, because the combination of activated carbon as a core-center particle with the melamine–polyacrylic acid component is absorbed on clay surface through hydrogen bonds and electrostatic interactions.
ArticleNumber 100065
Author Saleh, Tawfik A.
Nur, Mulya M.
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  givenname: Tawfik A.
  surname: Saleh
  fullname: Saleh, Tawfik A.
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  organization: Department of Chemistry, King Fahd University of Petroleum & Minerals, Dhahran 31261, Saudi Arabia
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Keywords oil
Shale
Drilling fluid
Aminated acrylic acid
Polymer
Polyacrylic
Environment
Language English
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Snippet This work reports on the synthesis of allyl-activated carbon modified with polyacrylic and then aminated by melamine. The obtained melamine-modified...
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StartPage 100065
SubjectTerms Aminated acrylic acid
Drilling fluid
Environment
oil
Polyacrylic
Polymer
Shale
Title Melamine-modified polyacrylic grafted on activated carbon and its efficiency for shale inhibition
URI https://dx.doi.org/10.1016/j.upstre.2022.100065
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