Dezembro 2020 vol. 7 num. 2 - VI Simpósio Internacional de Inovação e Tecnologia
Artigo completo - Open Access.
SALT PRECIPITATION AND CEMENT DEGRADATION DURING CO2STORAGE: A BRIEF REVIEW
PRECIPITAÇÃO DE SAIS E DEGRADAÇÃO DE CIMENTO DURANTE A ESTOCAGEM DE CO2: UMA BREVE REVISÃO
Malgaresi, Gabriel ; Mirre, Reinaldo Coelho ; Souza Filho, Byron Gonçalves de ; Oliveira, André Souza ; Guarieiro, Lilian Lefol Nani ;
Artigo completo:
CO2 emission has increased significantly in the past 50 years and it hasbecome a real threat to the environment. One of the alternatives to decrease CO2emission is storage it into aquifer or depleted oil reservoirs. During CO2 injection intoreservoirs, industries have faced numerous problems. The main problems mentionedin the literature are salt precipitation and cement degradation. In this paper, we proposea methodology to select the most relevant works related to the previous mentionedproblems. Afterwards, we prepare a brief literature review including the main physicalmechanisms, phenomena, and finds regarding to salt precipitation and cementdegradation. Finally, we conclude the paper showing the potential technologicalopportunities to be developed.
Artigo completo:
As emissões de CO2 vêm crescendo significativamente nos últimos 50 anos, tornando-se uma ameaça real ao meio ambiente. Uma das alternativas para diminuir a emissão de CO2 é seu armazenamento em aquíferos ou reservatórios depletados. Durante a injeção de CO2, as indústrias têm enfrentado inúmeros problemas. Os principais problemas mencionados na literatura são a precipitação de sais e a degradação de cimento. Neste artigo, propõe-se uma metodologia para selecionar os trabalhos mais relevantes e, em seguida, prepara-se uma sucinta revisão da literatura incluindo os principais mecanismos físicos, fenômenos, e descobertas relacionadas à precipitação de sais e degradação de cimento. Portanto, este trabalho procura apontar as potenciais oportunidades tecnológicas a serem desenvolvidas nesta abordagem.
Palavras-chave: CCS; CO2 leakage; formation damage; well cement,
Palavras-chave: CCS; Vazamento de CO2; dano à formação; cimentação de poços,
DOI: 10.5151/siintec2020-SALTPRECIPITATION
Referências bibliográficas
- [1] 1H. Ritchie, M. Roser, CO₂ and greenhouse gas emissions, Our World Data. (2017). 2J. Gale, Overview of CO2 emission sources, potential, transport and geographical distribution of storage possibilities, in: IPCC Work. Carbon Dioxide Capture Storage, 2002: pp. 15–29. 3H. Ostovari, A. Sternberg, A. Bardow, Rock ‘n’use of CO 2: carbon footprint of carbon capture and utilization by mineralization, Sustain. Energy Fuels. (2020). 4M. Tiong, R. Gholami, M.E. Rahman, Cement degradation in CO 2 storage sites: A review on potential applications of nanomaterials, J. Pet. Explor. Prod. Technol. 9 (2019) 329–340. 5R. Miri, H. Hellevang, Salt precipitation during CO2 storage—A review, Int. J. Greenh. Gas Control. 51 (2016) 136–147. 6A. Al-Mamoori, A. Krishnamurthy, A.A. Rownaghi, F. Rezaei, Carbon capture and utilization update, Energy Technol. 5 (2017) 834–849. 7F.M. Stuardi, F. MacPherson, J. Leclaire, Integrated CO2 capture and utilization: A priority research direction, Curr. Opin. Green Sustain. Chem. 16 (2019) 71–76. 8J.R. Sminchak, S. Mawalkar, N. Gupta, Large CO2 Storage Volumes Result in Net Negative Emissions for Greenhouse Gas Life Cycle Analysis Based on Records from 22 Years of CO2-Enhanced Oil Recovery Operations, Energy & Fuels. 34 (2020) 3566–3577. 9R.S. Middleton, J.W. Carey, R.P. Currier, J.D. Hyman, Q. Kang, S. Karra, J. JiménezMartínez, M.L. Porter, H.S. Viswanathan, Shale gas and non-aqueous fracturing fluids: Opportunities and challenges for supercritical CO2, Appl. Energy. 147 (2015) 500–509. 10A.S. Carvalhal, G.M. Nunes Costa, S.A.B. Vieira de Melo, Simulation of Enhanced Oil Recovery in Pre-Salt Reservoirs: The Effect of High CO2 Content on Low Salinity Water Alternating Gas Injection, SPE Reserv. Characterisation Simul. Conf. Exhib. (2019) 1 11Y. Li, P.G. Ranjith, M.S.A. Perera, Q. Yu, Residual water formation during the CO2 storage process in deep saline aquifers and factors influencing it: A review, J. CO2 Util. 20 (2017) 253–262. 12M. Bagheri, S.M. Shariatipour, E. Ganjian, A review of oil well cement alteration in CO2-rich environments, Constr. Build. Mater. 186 (2018) 946–968. 13Y. Wang, T. Luce, C. Ishizawa, M. Shuck, K. Smith, H. Ott, M. Appel, Halite precipitation and permeability assessment during supercritical CO2 core flood, in: Int. Symp. Soc. Core Anal. Halifax, 2010: pp. 4–7. 14G. Bacci, A. Korre, S. Durucan, Experimental investigation into salt precipitation during CO2 injection in saline aquifers, Energy Procedia. 4 (2011) 4450–4456. 15Y. Peysson, L. André, M. Azaroual, Well injectivity during CO2 storage operations in VI INTERNATIONAL SYMPOSIUM ON INNOVATION AND TECHNOLOGY (SIINTEC) "Challenges in science, technology and innovation after COVID-19" ISSN: 2357-7592 deep saline aquifers—Part 1: Experimental investigation of drying effects, salt precipitation and capillary forces, Int. J. Greenh. Gas Control. 22 (2014) 291–300. 16D. He, P. Jiang, R. Xu, Pore-Scale Experimental Investigation of the Effect of Supercritical CO2 Injection Rate and Surface Wettability on Salt Precipitation, Environ. Sci. Technol. 53 (2019) 14744–1475 17J. Jeddizahed, B. Rostami, Experimental investigation of injectivity alteration due to salt precipitation during CO2 sequestration in saline aquifers, Adv. Water Resour. 96 (2016) 23–33. 18N. Muller, R. Qi, E. Mackie, K. Pruess, M.J. Blunt, CO2 injection impairment due to halite precipitation, Energy Procedia. 1 (2009) 3507–3514. 19T. Russell, D. Pham, M.T. Neishaboor, A. Badalyan, A. Behr, L. Genolet, P. Kowollik, A. Zeinijahromi, P. Bedrikovetsky, Effects of kaolinite in rocks on fines migration, J. Nat. Gas Sci. Eng. 45 (2017) 243–255. 20L. Chequer, A. Vaz, P. Bedrikovetsky, Injectivity decline during low-salinity waterflooding due to fines migration, J. Pet. Sci. Eng. 165 (2018) 1054–1072. 21Y. Wang, E. Mackie, J. Rohan, T. Luce, R. Knabe, M. Appel, Experimental study on halite precipitation during CO2 sequestration, in: Int. Symp. Soc. Core Anal. Held Noordwijk, Netherlands, 2009: pp. 27–30. 22H. Ott, K. de Kloe, M. van Bakel, F. Vos, A. van Pelt, P. Legerstee, A. Bauer, K. Eide, A. van der Linden, S. Berg, Core-flood experiment for transport of reactive fluids in rocks, Rev. Sci. Instrum. 83 (2012) 8450 23H. Ott, M. Andrew, J. Snippe, M.J. Blunt, Microscale solute transport and precipitation in complex rock during drying, Geophys. Res. Lett. 41 (2014) 8369–8376. 24H. Ott, S.M. Roels, K. De Kloe, Salt precipitation due to supercritical gas injection: I. Capillary-driven flow in unimodal sandstone, Int. J. Greenh. Gas Control. 43 (2015) 247–255. 25Y. Peysson, Permeability alteration induced by drying of brines in porous media, Eur. Phys. J. Appl. Phys. 60 (2012) 24206. 26N. Gaurina-Međimurec, B. Pašić, Design and mechanical integrity of CO2 injection wells, Rud. Zb. 23 (2011) 1–8. 27B.G. Kutchko, B.R. Strazisar, D.A. Dzombak, G. V Lowry, N. Thaulow, Degradation of well cement by CO2 under geologic sequestration conditions, Environ. Sci. Technol. 41 (2007) 4787–4792. 28O. Omosebi, H. Maheshwari, R. Ahmed, S. Shah, S. Osisanya, S. Hassani, G. DeBruijn, W. Cornell, D. Simon, Degradation of well cement in HPHT acidic environment: Effects of CO2 concentration and pressure, Cem. Concr. Compos. 74 (2016) 54–70. 29V. Barlet-Gouédard, G. Rimmelé, O. Porcherie, N. Quisel, J. Desroches, A solution against well cement degradation under CO2 geological storage environment, Int. J. Greenh. Gas Control. 3 (2009) 206–216. 30C. Teodoriu, O. Bello, A review of cement testing apparatus and methods under CO2 environment and their impact on well integrity prediction–Where do we stand?, J. Pet. Sci. Eng. 187 (2020) 106736.
Como citar:
Malgaresi, Gabriel ; Mirre, Reinaldo Coelho; Souza Filho, Byron Gonçalves de; Oliveira, André Souza; Guarieiro, Lilian Lefol Nani ; "SALT PRECIPITATION AND CEMENT DEGRADATION DURING CO2STORAGE: A BRIEF REVIEW", p. 235-243 . In: Anais do VI Simpósio Internacional de Inovação e Tecnologia.
São Paulo: Blucher,
2020.
ISSN 2357-7592,
ISBN: 2357-7592
DOI 10.5151/siintec2020-SALTPRECIPITATION
últimos 30 dias | último ano | desde a publicação
downloads
visualizações
indexações