Imidazoline-Based Fatty Acid Derivatives as Novel Shale Inhibitors for Water-Based Drilling Fluids
Water-based drilling fluids (WBMs) are widely applied in petroleum engineering due to their lower cost and reduced environmental impact compared to oil-based muds. However, their performance is severely limited in shale formations, where hydration and swelling of clay minerals lead to wellbore insta...
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| Vydáno v: | Applied sciences Ročník 15; číslo 20; s. 11050 |
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| Jazyk: | angličtina |
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MDPI AG
01.10.2025
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| ISSN: | 2076-3417, 2076-3417 |
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| Abstract | Water-based drilling fluids (WBMs) are widely applied in petroleum engineering due to their lower cost and reduced environmental impact compared to oil-based muds. However, their performance is severely limited in shale formations, where hydration and swelling of clay minerals lead to wellbore instability. In this study, two novel imidazoline-type inhibitors were synthesized from fatty acids: A-Lin (derived from linoleic acid) and A-Lau (derived from lauric acid). The synthesis involved amidation followed by cyclization, and the products were characterized using FTIR and TGA. Their performance as shale hydration inhibitors was evaluated in WBM formulations and compared with commercial additives (Amine NF and Glycol). The FTIR spectra confirmed successful imidazoline ring formation, while TGA demonstrated good thermal stability up to 150 °C, with A-Lin exhibiting superior resistance due to its unsaturated structure. Rheological tests showed that the synthesized additives reduced plastic viscosity, thereby improving cuttings transport efficiency. Swelling tests revealed that A-Lin achieved the lowest final swelling (6.3%), outperforming both commercial inhibitors and the saturated A-Lau analogue. Furthermore, A-Lin provided the best lubricity coefficient (0.148), reducing torque and drag during drilling. Overall, A-Lin demonstrated strong potential as an efficient, thermally stable, and environmentally compatible shale inhibitor for advanced WBM formulations. Compared to conventional inhibitors such as KCl, glycol, and amine-based additives, A-Lin uniquely combines superior swelling inhibition, enhanced lubricity, and good thermal stability, highlighting its novelty as an imidazoline derivative derived from renewable fatty acids |
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| AbstractList | Water-based drilling fluids (WBMs) are widely applied in petroleum engineering due to their lower cost and reduced environmental impact compared to oil-based muds. However, their performance is severely limited in shale formations, where hydration and swelling of clay minerals lead to wellbore instability. In this study, two novel imidazoline-type inhibitors were synthesized from fatty acids: A-Lin (derived from linoleic acid) and A-Lau (derived from lauric acid). The synthesis involved amidation followed by cyclization, and the products were characterized using FTIR and TGA. Their performance as shale hydration inhibitors was evaluated in WBM formulations and compared with commercial additives (Amine NF and Glycol). The FTIR spectra confirmed successful imidazoline ring formation, while TGA demonstrated good thermal stability up to 150 °C, with A-Lin exhibiting superior resistance due to its unsaturated structure. Rheological tests showed that the synthesized additives reduced plastic viscosity, thereby improving cuttings transport efficiency. Swelling tests revealed that A-Lin achieved the lowest final swelling (6.3%), outperforming both commercial inhibitors and the saturated A-Lau analogue. Furthermore, A-Lin provided the best lubricity coefficient (0.148), reducing torque and drag during drilling. Overall, A-Lin demonstrated strong potential as an efficient, thermally stable, and environmentally compatible shale inhibitor for advanced WBM formulations. Compared to conventional inhibitors such as KCl, glycol, and amine-based additives, A-Lin uniquely combines superior swelling inhibition, enhanced lubricity, and good thermal stability, highlighting its novelty as an imidazoline derivative derived from renewable fatty acids |
| Audience | Academic |
| Author | Dumitrache, Liviu Doukeh, Rami Stoica, Doru Bogdan Tudose, Mihail Prundurel, Alina Petronela Stan, Ioana Gabriela Branoiu, Gheorghe Suditu, Silvian Zaharia, Emil |
| Author_xml | – sequence: 1 givenname: Ioana Gabriela surname: Stan fullname: Stan, Ioana Gabriela – sequence: 2 givenname: Mihail surname: Tudose fullname: Tudose, Mihail – sequence: 3 givenname: Alina Petronela surname: Prundurel fullname: Prundurel, Alina Petronela – sequence: 4 givenname: Gheorghe orcidid: 0000-0002-9562-7564 surname: Branoiu fullname: Branoiu, Gheorghe – sequence: 5 givenname: Liviu orcidid: 0009-0005-3929-0564 surname: Dumitrache fullname: Dumitrache, Liviu – sequence: 6 givenname: Silvian orcidid: 0009-0008-6538-0274 surname: Suditu fullname: Suditu, Silvian – sequence: 7 givenname: Doru Bogdan orcidid: 0000-0001-9676-0933 surname: Stoica fullname: Stoica, Doru Bogdan – sequence: 8 givenname: Emil surname: Zaharia fullname: Zaharia, Emil – sequence: 9 givenname: Rami orcidid: 0000-0001-8010-0885 surname: Doukeh fullname: Doukeh, Rami |
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| SubjectTerms | Additives Amines anti-swelling additives Atmospheric pressure Chloride Clay Clay minerals Composite materials Drilling Efficiency Environmental engineering Ethylenediaminetetraacetic acid Hydration imidazoline derivatives Oil well drilling Phenolphthalein Polyethylene glycol Potassium rheological properties Saturated fatty acids shale inhibition Temperature Toxicity Unsaturated fatty acids Water |
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| Title | Imidazoline-Based Fatty Acid Derivatives as Novel Shale Inhibitors for Water-Based Drilling Fluids |
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