Your search keyword '"co2 sequestration"' showing total 6 results

1. Behaviour of concrete and cement in carbon dioxide sequestration by mineral carbonation processes

Author

Patricia Aparicio, Domingo Martín, Rocío Baya-Arenas, and Vicente Flores-Alés

Subjects

CO2 sequestration, Mineral carbonation, Construction wastes, Calcite, Concrete, Clay industries. Ceramics. Glass, TP785-869

Abstract

Mineral carbonation of construction and demolition waste is a viable alternative for the reduction of CO2 emissions from industry. Concrete and cement, together with ceramic blocks, are the primary sources of calcium for mineral carbonation in which CO2 is fixed in a stable and inert process. One type of concrete was selected from 5 for the carbonation tests. Crushed, separated into size fractions, moistened to 20% and tested at 10 bars of CO2 for 24 to 720 h. Destruction of portlandite and ettringite phases was determined. Calcite precipitated as carbonate phase. Maximum carbonation was reached after 72 h, fixing 6.5% of CO2. Resumen: La carbonatación mineral de los residuos de construcción y demolición es una alternativa viable para la reducción de las emisiones de CO2 de la industria. El hormigón y el cemento, junto con los bloques de cerámica, son las principales fuentes de calcio para la carbonatación mineral en la que el CO2 se fija en un proceso estable e inerte. Se seleccionó un tipo de hormigón de entre 5 para las pruebas de carbonatación. Triturado, separado en fracciones de tamaño, humedecido al 20% y probado a 10 bares de CO2 durante 24 a 720 horas. Se determinó la destrucción de las fases de portlanita y ettringita. La calcita se precipitó como fase de carbonato. La máxima carbonatación se alcanzó después de 72 horas, fijando el 6,5% de CO2.

Published

2022

2. Strategies to reducing GHG emissions in semi-arid rangelands of Mexico

Author

Heriberto Díaz Solís, W. E. Grant, M. M. Kothmann, W. R. Teague, Fernando Paz Pellat, and Martín Bolaños González

Subjects

cattle production, CO2 sequestration, methane emissions, simulation model, Agriculture, Agriculture (General), S1-972

Abstract

SESS (Simple Ecological Sustainability Simulator) model was modified to evaluate 3 management strategies that could increase CO2 sequestration and reduce methane emissions in cow-calf production systems in semi-arid rangelands. The management strategies included (1) maintenance of a high and constant stocking rate (CONTROL), which is the most common current practice, (2) maintenance of a low and constant stocking rate (LOW SR) and (3) adjustment of stocking rate before the beginning of each breeding season based on the amount of precipitation during the previous growing season (REPLA-PPT). The model was parameterized to represent a typical extensive (5 000 ha) cow-calf production system in the northeastern portion of the Mexican state of Coahuila under an historical (1950 to 1994) precipitation regime, and compared carbon sequestration, methane emissions, animal performance and net profit resulting from each strategy. Results of the 45-year simulations indicated the REPLA-PPT stocking rate strategy had the greatest improvement of range condition, captured more CO2 in vegetation, had the lowest methane emissions, substantially improved mean body condition score and reduced annual mortality of cattle, compared to the constant stocking rate strategies. REPLA-PPT also showed the highest values for calves weaned, and kg weaned per ton of methane produced and highest long-term net profit. This suggests that adaptive management of extensive cow-calf production systems in semi-arid environments could increase carbon sequestration in soils and reduce methane emissions, while improving range production, maintaining animal production and giving the greatest long-term net profit.

Published

2016

3. Captura e sequestro de carbono das árvores da Universidade Lay 'Eloy Alfaro' de Manabí, Equador

Author

Ricardo Javier Castillo Ruperti, Vicente Enrique Bello Pinargote, Yulio Santiago Loor Barrezueta, and Carlos César Ayón Hidalgo

Subjects

arbolado urbano, Azadirachta indica, sequestro de CO₂, Geography, Planning and Development, arborização urbana, Management, Monitoring, Policy and Law, urban trees, serviços ambientais, áreas verdes, servicios ambientales, secuestro de CO₂, green areas, CO₂ sequestration, environmental services

Abstract

La importancia de los árboles para el ambiente se centra en los servicios que pueden ofrecer, siendo el de fijación de CO2 uno de los más destacados. El objetivo de la investigación fue estimar la cantidad de carbono capturado por el arbolado de las áreas verdes de la Universidad Laica Eloy Alfaro de Manabí. Para este propósito se realizó un inventario del estrato arbóreo. Se registraron todos los individuos con diámetro de 1.30 m (más menos 5 cm). Se evaluó la riqueza y abundancia, además de variables dendométricas (altura total, diámetro del tronco). Se calculó el carbono capturado a partir de la estimación de biomasa forestal. La densidad de la madera de las distintas especies se obtuvo de varias bases de datos forestales mundiales. Se identificaron 68 especies y 1200 individuos. La especie más abundante fue Azadirachta indica (37%). El secuestro de CO2 fue de 19 650.76 t. A pesar de que se fija una importante cantidad de carbono, muchos ejemplares se encuentran en conflicto con infraestructura física, lo cual requiere la remoción de estos. Se recomienda diseñar nuevas áreas verdes bajo estrictas normas de calidad, priorizando especies nativas., The importance of trees for the environment focuses on the services they can offer, CO2 fixation being one of the most prominent. The objective of the research was to estimate the amount of carbon captured by the trees in the green areas of the Universidad Laica Eloy Alfaro de Manabí. For this purpose, an inventory of the tree stratum was carried out. All individuals with a diameter at 1.30 m (plus minus 5 cm) were recorded. Richness and abundance were evaluated, as well as dendometric variables (total height, trunk diameter). The carbon captured was calculated from the estimate of forest biomass. The wood density of the different species was obtained from various global forestry databases. 68 species and 1200 individuals were identified. The most abundant species was Azadirachta indica (37%). CO2 sequestration was 19 650.76 t. Although a significant amount of carbon is fixed, many specimens are in conflict with physical infrastructure, which requires their removal. It is recommended to design new green areas under strict quality standards, prioritizing native species., A importância das árvores para o ambiente centra-se nos serviços que podem oferecer, sendo a fixação de CO2 um dos mais destacados. O objetivo da pesquisa foi estimar a quantidade de carbono capturada pelas árvores nas áreas verdes da Universidad Laica Eloy Alfaro de Manabí. Para tanto, foi realizado um inventário do estrato arbóreo. Todos os indivíduos com diâmetro de 1.30 m (mais menos 5 cm) foram registrados. Foram avaliadas a riqueza e abundância, bem como as variáveis dendométricas (altura total, diâmetro do tronco). O carbono capturado foi calculado a partir da estimativa da biomassa florestal. A densidade da madeira das diferentes espécies foi obtida de vários bancos de dados florestais globais. 68 espécies e 1200 indivíduos foram identificados. A espécie mais abundante foi Azadirachta indica (37%). O sequestro de CO2 foi de 19 650.76 t. Embora uma quantidade significativa de carbono seja fixada, muitos espécimes estão em conflito com a infraestrutura física, o que exige sua remoção. Recomenda-se projetar novas áreas verdes sob rígidos padrões de qualidade, priorizando espécies nativas.

Published

2022

4. Geochemical potentiality of glauconitic shelf sediments for sequestering atmospheric CO2 of anthropogenic origin

Author

S Fernández-Bastero, T García, A Santos, and Luis Gago-Dupont

Subjects

glauconite dissolution, continuous-flow solution, CO2 sequestration, carbonation reactions, reaction/speciation models, Biology (General), QH301-705.5

Abstract

An experimental analysis was made of the glauconite dissolution rate as a function of pH. The results were used to model the geochemical evolution of glauconitic shelf sediments injected with CO2 and estimate the possibilities and limitations for sequestering CO2 in the form of minerals through carbonation reactions. The experimental results show how, under acidic conditions, glauconite is slightly more soluble than other silicates, producing more insoluble carbonated products. The dissolution mechanism is incongruent at very acidic pH values and tends to be congruent at intermediate and neutral values. The reactive surface decreases during the process as a result of the formation of an amorphous residue. Kinetic data were used to model the reactions of carbonation in marine sediments using reaction/speciation calculations. This study shows that, in the case of glauconite, the efficiency of CO2 sequestration depends primarily on two factors: the dissolution/speciation kinetics of CO2 in sediments and the kinetics of Fe2+ release. The greatest limitation for the implementation of this process is that pH evolves to more acidic values. The results suggest that, in the medium term, this process could be technically optimized by modifying the neutralization response of sediments through the injection of alkalinizing agents and by appropriately selecting the mode of injection as well as the composition of the sediments and of the most favourable diagenetic zones.

Published

2005

5. Posibilidades de captura y almacenamiento geológico de CO2 (CCS) en Colombia – caso Tauramena (Casanare)

Author

Mariño-Martínez1, Jorge Eliecer and Moreno-Reyes, Luisa Epimenia

Subjects

CO2 sequestration, captura de CO2, Carbon capture and storage, formación Carbonera, geological storage, almacenamiento geológico, Carbonera formation, Captura y almacenamiento de carbono, CCS

Abstract

Resumen Los efectos antropogénicos sobre el clima pueden ser mitigados a través de diversas medidas, entre ellas la captura de CO2 en medios geológicos (CCS). Las estructuras geológicas para captura de CO2 realmente no necesitan ningún desarrollo tecnológico importante, porque la tecnología se ha desarrollado y aplicado por la industria energética para exploración y producción de hidrocarburos. El reto está más bien en identificar los mejores métodos y sitios para captura y almacenamiento de CO2 a largo plazo. Existen algunas formas para el almacenamiento de CO2 en medios geológicos, entre los que se destacan: utilización en operaciones de recobro mejorado EOR, eliminación en reservorios depletados de petróleo y gas, almacenamiento en capas donde se ha explotado el gas asociado al carbón (CBM), inyección en acuíferos salinos profundos y almacenamiento en cavernas de sal. Son varios los criterios a tener en cuenta al evaluar el potencial de una cuenca sedimentaria de almacenamiento de CO2: su ajuste tectónico y geológico, el régimen geotérmico de la cuenca, el régimen hidrodinámico de aguas de formación, el potencial de hidrocarburos y madurez de cuenca, los aspectos económicos relativos al acceso, infraestructura y las condiciones sociopolíticas. En la cuenca de los Llanos (Tauramena, Casanare) existen las condiciones para la implementación del método de almacenamiento de CO2, dada la presencia de varios miembros de la formación Carbonera con buenos espesores y permeabilidad, y adicionalmente cuenta con el sello regional de la Formación León y el desarrollo de tecnologías en la industria de los hidrocarburos, favoreciendo la selección de esta cuenca para posibles proyectos pilotos y posterior aplicación comercial del método CCS. Abstract The anthropogenic climate effects can be mitigated through various measures, including the capture of CO2 in geologic structures (CCS). Geological structures for sequestration of CO2 do not really need any important technological development, because the technology has been developed and applied by the energy industry for hydrocarbons exploration and production. The challenge is rather to identify the best methods and sites to capture CO2 for long term storage. There are some ways for CO2 storage in geological media, among them: use in EOR operations, elimination in depleted reservoirs of oil and gas, storage in layers where the coal bed methane (CBM) has been desorbed, injection in deep saline aquifers and storage in salt caverns that have been exploited. There are several criteria to consider when evaluating the potential of a sedimentary basin of storage of CO2: its tectonic and geological setting, the geothermal regime in the basin, the hydrodynamic flow regime, the potential for hydrocarbons and maturity of basin, economic aspects related to access, infrastructure, and socio-political conditions. The conditions for the implementation of the method of storage of CO2 in the Llanos basin (Tauramena, Casanare) are favorable due to the presence of several members of the Carbonera formation with good thickness and permeability; additionally, the presence of the overlaying regional seal of the León formation, and the development of technologies in the hydrocarbon industry, favoring the selection of this basin for potential pilot projects and subsequent commercial implementation of the CCS method in the basin.

Published

2018

6. Technological innovations on underground coal gasification and co2 sequestration

Author

CARLOS DINIS DA GAMA, VIDAL NAVARRO TORRES, and ANA PAULA FALCÃO NEVES

Subjects

lcsh:TN1-997, CO2 sequestration, lcsh:T, sustainability index, Underground, sustainability, lcsh:Technology, coal gasification, CO2 capture, lcsh:Mining engineering. Metallurgy

Abstract

Se describen las principales contribuciones al desarrollo tecnológico del proceso de gasificación subterránea del carbón (G.S.C.) y complementariamente la posibilidad de secuestración del CO2 en el medio ambiente subterráneo. Se busca explicar por que razones existen actualmente en el mundo muy pocas plantas industriales de G.S.C. que produzcan regularmente combustibles gaseosos oriundos de la combustión del carbón "in situ", a pesar de las ventajas de protección ambiental que resultan de este proceso. Un breve listado de los proyectos en curso es incluido. La posibilidad del almacenamiento subterráneo del CO2 con o sin simultaneidad respecto a la G.S.C. es analizada, destacando las principales dificultades de aplicación de esta técnica y los riesgos asociados a las soluciones integradas, que necesitan soluciones de innovación.

Published

2010