Materials for Well Integrity: Performance of Setting Materials for Well Cementing Operation
Primary cementing operation is the process of pumping and placing a cementitious slurry in a well. After setting, the so-called barrier material has to provide zonal isolation in the annular gap behind casing string. After a hundred years of using hydraulic Portland cement as prime material for ceme...
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Stavanger, University of Stavanger
2022
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University of Stavanger: UiS Brage |
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English |
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petroleumsteknologi brønnteknologi VDP::Teknologi: 500::Berg‑ og petroleumsfag: 510::Petroleumsteknologi: 512 |
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petroleumsteknologi brønnteknologi VDP::Teknologi: 500::Berg‑ og petroleumsfag: 510::Petroleumsteknologi: 512 Kamali, Mohammadreza Materials for Well Integrity: Performance of Setting Materials for Well Cementing Operation |
topic_facet |
petroleumsteknologi brønnteknologi VDP::Teknologi: 500::Berg‑ og petroleumsfag: 510::Petroleumsteknologi: 512 |
description |
Primary cementing operation is the process of pumping and placing a cementitious slurry in a well. After setting, the so-called barrier material has to provide zonal isolation in the annular gap behind casing string. After a hundred years of using hydraulic Portland cement as prime material for cementing operation, although the chemistry of the material is well-developed, still shortcomings are reported in short- and long-term properties. Safe and cost-efficient operations have been the motivation for improving the performance of barrier material. Additionally, annual increase of the carbon tax is a driving force for switching to green alternatives to Portland cement. The present study includes scientific examination of candidate barrier materials for cementing operation. These materials are an industrial class of expansive cement, a non-cement-based pozzolanic material, an inorganic polymer known as geopolymer, and organic thermosetting resin. The materials were assessed aiming to evaluate their performance at equal conditions. The thesis is divided into two main sections comprising a core that describe the research project and appended papers discussing scientific achievements. The outcome of this study includes strengths and weaknesses of each material, which are published in seven scientific papers: three journals, two peer-reviewed conferences, and two SPE conferences. The papers are included as Appendix and labeled using Roman numerals. In the present review, same numerals are used when referring to the papers. Paper I includes fluid-state properties of the candidate barrier material. Density, viscosity profile, static fluid-loss, and the pumpability of the materials are tested at bottom-hole circulating temperature. Paper II presents short-term mechanical properties of Portland cement-based systems and highlights the effect of chemical additives on the mix design. In this study, the mechanical properties of expansive cement and API neat class G cement are included. The samples were cured from one day to ... |
author2 |
Khalifeh, Mahmoud Saasen, Arild |
format |
Doctoral or Postdoctoral Thesis |
author |
Kamali, Mohammadreza |
author_facet |
Kamali, Mohammadreza |
author_sort |
Kamali, Mohammadreza |
title |
Materials for Well Integrity: Performance of Setting Materials for Well Cementing Operation |
title_short |
Materials for Well Integrity: Performance of Setting Materials for Well Cementing Operation |
title_full |
Materials for Well Integrity: Performance of Setting Materials for Well Cementing Operation |
title_fullStr |
Materials for Well Integrity: Performance of Setting Materials for Well Cementing Operation |
title_full_unstemmed |
Materials for Well Integrity: Performance of Setting Materials for Well Cementing Operation |
title_sort |
materials for well integrity: performance of setting materials for well cementing operation |
publisher |
Stavanger, University of Stavanger |
publishDate |
2022 |
url |
https://hdl.handle.net/11250/2994735 |
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Arctic |
genre_facet |
Arctic |
op_relation |
PhD thesis UiS;642 Paper 1: Kamali, M., Khalifeh, M., Saasen, A., Delabroy, L., & Godøy, R. (2022). Materials for Well Integrity–Rheological Behavior Study. Paper is Submitted to the SPE Norway Subsurface Conference. Bergen, Norway. This paper is not available in Brage due to copyright. Paper 2: Kamali, M., Khalifeh, M., Saasen, A., & Delabroy, L. (2020). Materials for Well Integrity–Short-Term Mechanical Properties of Cement Systems. Paper presented at the SPE Norway Subsurface Conference. Bergen, Norway. Doi: https://doi.org/10.2118/200739-MS. This paper is not available in Brage due to copyright. Paper 3: Kamali, M., Khalifeh, M., Saasen, A., & Delabroy, L. (2020). Materials for Well Integrity- Characterization of Short-Term Mechanical Properties. Paper presented at the Proceedings of the ASME 2020 39th International Conference on Ocean, Offshore and Arctic Engineering OMAE2020. Doi: https://doi.org/10.1115/OMAE2020-18623. This paper is not available in Brage due to copyright. Paper 4: Kamali, M., Khalifeh, M., Saasen, A., Godøy, R., & Delabroy, L. (2021). Alternative Setting Materials for Primary Cementing and Zonal Isolation–Laboratory Evaluation of Rheological and Mechanical Properties. Journal of Petroleum Science and Engineering, 108455. Doi: https://doi.org/10.1016/j.petrol.2021.108455 Paper 5: Kamali, M., Khalifeh, M., Eid, E., & Saasen, A. (2021). Experimental Study of Hydraulic Sealability and Shear Bond Strength of Cementitious Barrier Materials. Journal of Energy Resources Technology, 1-33. Doi: https://doi.org/10.1115/1.4051269 Paper 6: Kamali, M., Khalifeh, M., & Saasen, A. (2022). Bonding Mechanism of Zonal Isolation Materials to Casing and Pipe Materials. Under Review at a scientific journal. This paper is not available in Brage. Paper 7: Kamali, M., Moreira, P., Khalifeh, M., & Saasen, A. (2022). Long-Term Mechanical Properties of Barrier Materials for Cementing Operations – Analysis of Morphology and Micro-structure. Paper is Accepted at the Proceedings of the ASME 2022 41st International Conference on Ocean, Offshore and Arctic Engineering OMAE2022. This paper is not available in Brage. Materials for Well Integrity: Performance of Setting Materials for Well Cementing Operation by Mohammadreza Kamali, Stavanger : University of Stavanger, 2022 (PhD thesis UiS, no. 642) urn:isbn:978-82-8439-079-6 urn:issn:1890-1387 https://hdl.handle.net/11250/2994735 |
op_rights |
© 2022 Mohammadreza Kamali |
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ftunivstavanger:oai:uis.brage.unit.no:11250/2994735 2023-06-11T04:07:51+02:00 Materials for Well Integrity: Performance of Setting Materials for Well Cementing Operation Kamali, Mohammadreza Khalifeh, Mahmoud Saasen, Arild 2022-05 application/pdf https://hdl.handle.net/11250/2994735 eng eng Stavanger, University of Stavanger PhD thesis UiS;642 Paper 1: Kamali, M., Khalifeh, M., Saasen, A., Delabroy, L., & Godøy, R. (2022). Materials for Well Integrity–Rheological Behavior Study. Paper is Submitted to the SPE Norway Subsurface Conference. Bergen, Norway. This paper is not available in Brage due to copyright. Paper 2: Kamali, M., Khalifeh, M., Saasen, A., & Delabroy, L. (2020). Materials for Well Integrity–Short-Term Mechanical Properties of Cement Systems. Paper presented at the SPE Norway Subsurface Conference. Bergen, Norway. Doi: https://doi.org/10.2118/200739-MS. This paper is not available in Brage due to copyright. Paper 3: Kamali, M., Khalifeh, M., Saasen, A., & Delabroy, L. (2020). Materials for Well Integrity- Characterization of Short-Term Mechanical Properties. Paper presented at the Proceedings of the ASME 2020 39th International Conference on Ocean, Offshore and Arctic Engineering OMAE2020. Doi: https://doi.org/10.1115/OMAE2020-18623. This paper is not available in Brage due to copyright. Paper 4: Kamali, M., Khalifeh, M., Saasen, A., Godøy, R., & Delabroy, L. (2021). Alternative Setting Materials for Primary Cementing and Zonal Isolation–Laboratory Evaluation of Rheological and Mechanical Properties. Journal of Petroleum Science and Engineering, 108455. Doi: https://doi.org/10.1016/j.petrol.2021.108455 Paper 5: Kamali, M., Khalifeh, M., Eid, E., & Saasen, A. (2021). Experimental Study of Hydraulic Sealability and Shear Bond Strength of Cementitious Barrier Materials. Journal of Energy Resources Technology, 1-33. Doi: https://doi.org/10.1115/1.4051269 Paper 6: Kamali, M., Khalifeh, M., & Saasen, A. (2022). Bonding Mechanism of Zonal Isolation Materials to Casing and Pipe Materials. Under Review at a scientific journal. This paper is not available in Brage. Paper 7: Kamali, M., Moreira, P., Khalifeh, M., & Saasen, A. (2022). Long-Term Mechanical Properties of Barrier Materials for Cementing Operations – Analysis of Morphology and Micro-structure. Paper is Accepted at the Proceedings of the ASME 2022 41st International Conference on Ocean, Offshore and Arctic Engineering OMAE2022. This paper is not available in Brage. Materials for Well Integrity: Performance of Setting Materials for Well Cementing Operation by Mohammadreza Kamali, Stavanger : University of Stavanger, 2022 (PhD thesis UiS, no. 642) urn:isbn:978-82-8439-079-6 urn:issn:1890-1387 https://hdl.handle.net/11250/2994735 © 2022 Mohammadreza Kamali petroleumsteknologi brønnteknologi VDP::Teknologi: 500::Berg‑ og petroleumsfag: 510::Petroleumsteknologi: 512 Doctoral thesis 2022 ftunivstavanger 2023-05-29T16:01:45Z Primary cementing operation is the process of pumping and placing a cementitious slurry in a well. After setting, the so-called barrier material has to provide zonal isolation in the annular gap behind casing string. After a hundred years of using hydraulic Portland cement as prime material for cementing operation, although the chemistry of the material is well-developed, still shortcomings are reported in short- and long-term properties. Safe and cost-efficient operations have been the motivation for improving the performance of barrier material. Additionally, annual increase of the carbon tax is a driving force for switching to green alternatives to Portland cement. The present study includes scientific examination of candidate barrier materials for cementing operation. These materials are an industrial class of expansive cement, a non-cement-based pozzolanic material, an inorganic polymer known as geopolymer, and organic thermosetting resin. The materials were assessed aiming to evaluate their performance at equal conditions. The thesis is divided into two main sections comprising a core that describe the research project and appended papers discussing scientific achievements. The outcome of this study includes strengths and weaknesses of each material, which are published in seven scientific papers: three journals, two peer-reviewed conferences, and two SPE conferences. The papers are included as Appendix and labeled using Roman numerals. In the present review, same numerals are used when referring to the papers. Paper I includes fluid-state properties of the candidate barrier material. Density, viscosity profile, static fluid-loss, and the pumpability of the materials are tested at bottom-hole circulating temperature. Paper II presents short-term mechanical properties of Portland cement-based systems and highlights the effect of chemical additives on the mix design. In this study, the mechanical properties of expansive cement and API neat class G cement are included. The samples were cured from one day to ... Doctoral or Postdoctoral Thesis Arctic University of Stavanger: UiS Brage |