Chemical structure of cement aged at normal and elevated temperatures and pressures

The prime objective of the plug-and-abandon operations is to provide zonal isolation for infinite time. Cement-based materials are generally used as plugging materials. Therefore, it is important to understand the physical and chemical processes causing cement degradation in the downhole environment...

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Veröffentlicht in:	Cement and concrete research 2006-01, Vol.36 (1)
Hauptverfasser:	Le Saout, Gwenn, Lecolier, Eric, Rivereau, Alain, Zanni, Helene
Format:	Artikel
Sprache:	eng
Schlagworte:	CALCITE CALCIUM SILICATES CEMENTS HYDRATES LEACHING MATERIALS SCIENCE NMR SPECTRA NUCLEAR MAGNETIC RESONANCE X-RAY DIFFRACTION
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container_title	Cement and concrete research
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creator	Le Saout, Gwenn Lecolier, Eric Rivereau, Alain Zanni, Helene
description	The prime objective of the plug-and-abandon operations is to provide zonal isolation for infinite time. Cement-based materials are generally used as plugging materials. Therefore, it is important to understand the physical and chemical processes causing cement degradation in the downhole environment. In this study, we have characterised a Class G oilwell cement immersed for 1 year in brine at T=293 K, p=10{sup 5} Pa and T=353 K, p=7x10{sup 6} Pa using NMR and XRD techniques. In order to have a better understanding of the {sup 27}Al NMR spectra, selective dissolution has been performed. The results show that after 1 year of immersion in brine at T=293 K, p=10{sup 5} Pa, monosulfate is converted to Friedel's salt. Leaching resulted in the disappearance of portlandite and the formation of calcite and a more polymerised calcium silicate hydrates (C-S-H). In the T=353 K, p=7x10{sup 6} Pa mineralogy, ettringite is converted to hydrogrossular.
doi_str_mv	10.1016/J.CEMCONRES.2004.0
format	Article
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Cement-based materials are generally used as plugging materials. Therefore, it is important to understand the physical and chemical processes causing cement degradation in the downhole environment. In this study, we have characterised a Class G oilwell cement immersed for 1 year in brine at T=293 K, p=10{sup 5} Pa and T=353 K, p=7x10{sup 6} Pa using NMR and XRD techniques. In order to have a better understanding of the {sup 27}Al NMR spectra, selective dissolution has been performed. The results show that after 1 year of immersion in brine at T=293 K, p=10{sup 5} Pa, monosulfate is converted to Friedel's salt. Leaching resulted in the disappearance of portlandite and the formation of calcite and a more polymerised calcium silicate hydrates (C-S-H). 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Cement-based materials are generally used as plugging materials. Therefore, it is important to understand the physical and chemical processes causing cement degradation in the downhole environment. In this study, we have characterised a Class G oilwell cement immersed for 1 year in brine at T=293 K, p=10{sup 5} Pa and T=353 K, p=7x10{sup 6} Pa using NMR and XRD techniques. In order to have a better understanding of the {sup 27}Al NMR spectra, selective dissolution has been performed. The results show that after 1 year of immersion in brine at T=293 K, p=10{sup 5} Pa, monosulfate is converted to Friedel's salt. Leaching resulted in the disappearance of portlandite and the formation of calcite and a more polymerised calcium silicate hydrates (C-S-H). In the T=353 K, p=7x10{sup 6} Pa mineralogy, ettringite is converted to hydrogrossular.</abstract><cop>United States</cop><doi>10.1016/J.CEMCONRES.2004.0</doi></addata></record>
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source	ScienceDirect Journals (5 years ago - present)
subjects	CALCITE CALCIUM SILICATES CEMENTS HYDRATES LEACHING MATERIALS SCIENCE NMR SPECTRA NUCLEAR MAGNETIC RESONANCE X-RAY DIFFRACTION
title	Chemical structure of cement aged at normal and elevated temperatures and pressures
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