Título del libro: Proceedings - Spe Annual Technical Conference And Exhibition
Título del capítulo: Permanent storage of CO2 in Mexican igneous rocks
ERICK CANTU APODACA; PILAR ORTIZ LUCAS; ANA PAULINA GOMORA FIGUEROA; JAVIER MANCERA ALEJANDREZ;
Autores externos:
Idioma:
Inglés
Año de publicación:
2019
Palabras clave:
Analytical geochemistry; Aquifers; Basalt; Carbon dioxide; Climate change; Coal deposits; Coal storage; Crude oil; Greenhouse gases; Hydrogeology; Minerals; Petroleum reservoir engineering; Petroleum reservoirs; Carbon capture and storages (CCS); Crude oil reservoirs; Deep saline aquifers; Geochemical analysis; Geological storage; Mineral phasis; Potential methods; Water composition; Carbon capture
Resumen:
Mexico has undertaken a series of measures to implement Carbon Capture and Storage (CCS) technology due to the acquired national and international commitments regarding the reduction of GHG emissions as well as their implications to climate change. So far, the screening of the different methods for geological storage of CO2 potentially applicable in Mexico includes deep saline aquifers, non-economic coal beds, and crude oil reservoirs for EOR. Storage of carbon dioxide projects in igneous rocks has been successful in the past. According to the literature, there are about eight sites, onshore, in the world with plenty of igneous rocks to store CO2, and Mexico is one of these sites. However, little attention has been paid to the study of igneous rocks as a potential method for geological storage of carbon dioxide. This work aims the first petrographic and geochemical analysis to estimate the feasibility of CO2 mineralization thorough Mexican basaltic formations. This analysis includes the identification of the main CO2 emission areas in Mexico, the collection of samples near to large CO2 emissions sites and, the characterization of the samples by different tests and techniques. The properties of the rock samples and water were studied after the tests to compare changes in mineral phases and water composition. The results herein confirm the feasibility of Mexican basalts to react in the presence of CO2 but also set the recommendations for the next steps to take to determine the technical feasibility of the CO2 permanent storage using basalts in Mexico. © 2019, Society of Petroleum Engineers
Entidades citadas de la UNAM:
ISBN:
9781613996638
Editorial:
Society of Petroleum Engineers (SPE)
Tipo de producto:
Conference Paper
