CO<sub>2</sub>sequestration by magnesite mineralisation through interaction of Mg-brine and CO<sub>2</sub>: integrated laboratory experiments and computerised geochemical modelling

Klunk, Marcos Antônio; Shah, Zeban; Caetano, Nattan Roberto; Conceição, Rômmulo Vieira; Wander, Paulo Roberto; Dasgupta, Sudipta; Das, Mohuli

doi:10.1080/00207233.2019.1675295

Cited by 16 publications

(8 citation statements)

References 53 publications

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“…CO2 could be injected to saline aquifers containing a high concentration of alkaline earth metal ions which could be reacted with CO2 to form precipitates. Geochemical modelling can guide designing reaction processes and predicting the secondary reactions which cannot be obtained via other analysis (Klunk et al, 2019).…”

Section: Geological Model and Experimentsmentioning

confidence: 99%

Advances in process development of aqueous CO2 mineralisation towards scalability

Zhang

Chai

Šiller

2020

Journal of Environmental Chemical Engineering

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Section: Geological Model and Experimentsmentioning

confidence: 99%

Advances in process development of aqueous CO2 mineralisation towards scalability

Zhang

Chai

Šiller

2020

Journal of Environmental Chemical Engineering

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“…Conventional subcritical plants, the type most used in coal-fired power plants, including in Brazil, with an efficiency of up to 38%, will continue to prevail in expanding the thermoelectric generator park on the horizon until 2025 [14,26]. This technology will lose its global share to more efficient low-emission technologies around 2030, including advances to ultra-critical cycles with efficiencies greater than 50% and carbon capture and storage (CCS) technologies until 2050 [26,27].…”

Section: Background On Technologies Used To Minimize Atmospheric Emismentioning

confidence: 99%

Hierarchical Criticality Analysis of Clean Technologies Applied to a Coal-Fired Power Plant

Oliveira¹,

Lorenzini²,

Shah³

et al. 2020

IJDNE

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Mineral coal is the main source of energy generation in the world. In Brazil, this energy source has a smaller share in the internal energy supply, 5.5% of the total. Despite this, issues of energy security, stable and low prices make coal a strategic source. Due to this source's importance, this work aims to evaluate the clean technologies used to mitigate the emission resulting from the combustion of coal from a thermoelectric plant that applies low quality coal in Brazil using an analytical hierarchy process to classify the viable technological alternatives for the production process. The articulation of the environmental management system was adequate to meet the environmental demands and the energy efficiency of the thermoelectric plant. However, the results suggest that the investment in a coal processing plant would increase the fuel quality, a critical factor in the reduction of operating milling costs, in the ash circuit, and the treatment of gaseous emissions.

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“…In this scenario, there is a growing need for processes that improve efficiency and reduce the emission of air pollutants [12][13][14][15][16]. These emissions can be predicted by several models [17,18]. Porous burners, due to their versatility in radiant power control and high burning efficiency, provide considerable fuel economy, according to Caetano et al [19]; Zhang et al [20]; De Lemos [21]; Usman et al [22].…”

Section: Introductionmentioning

confidence: 99%

Experimental Assessment of Thermal Radiation Behavior Emitted by Solid Porous Material

Caetano¹,

Lorenzini²,

Lhamby³

et al. 2020

IJHT

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Porous media burners have been the focus of many studies due to the advantage in different applications in industry, which exhibit a directional emission of thermal radiation and low emission of pollutants. Indeed, these characteristics yields benefits regarding productivity by an environment friendly process. Thus, this work analyzes the behavior of radiation heat flux emitted by materials of different linear densities and porosities, varying the rate of air/fuel mixture and the flame power. In this way, was constructed an experimental setup that consists in a supply system of air/fuel, data acquisition, burner support for the radiation sensor, and the radiometer. This structure enables the displacement from 0°C to 90°C allowing the analysis of radiation in the area of a semisphere. The results shown that the silicon carbide has higher radiation efficiency than zirconia, due the higher thermal conductivity and emissivity. However, the silicon carbide degraded in one of the measurements. The ZrO2 media has proved challenging to stabilize for equivalence ratios below 0.6. Regarding the porosity, it is concluded that the higher the porosity, the greater the radiation efficiency, the expected result because there is a larger contact area for the reaction to occur within the pores.

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CO₂sequestration by magnesite mineralisation through interaction of Mg-brine and CO₂: integrated laboratory experiments and computerised geochemical modelling

Cited by 16 publications

References 53 publications

Advances in process development of aqueous CO2 mineralisation towards scalability

Advances in process development of aqueous CO2 mineralisation towards scalability

Hierarchical Criticality Analysis of Clean Technologies Applied to a Coal-Fired Power Plant

Experimental Assessment of Thermal Radiation Behavior Emitted by Solid Porous Material

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CO2sequestration by magnesite mineralisation through interaction of Mg-brine and CO2: integrated laboratory experiments and computerised geochemical modelling

Cited by 16 publications

References 53 publications

Advances in process development of aqueous CO2 mineralisation towards scalability

Advances in process development of aqueous CO2 mineralisation towards scalability

Hierarchical Criticality Analysis of Clean Technologies Applied to a Coal-Fired Power Plant

Experimental Assessment of Thermal Radiation Behavior Emitted by Solid Porous Material

Contact Info

Product

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CO₂sequestration by magnesite mineralisation through interaction of Mg-brine and CO₂: integrated laboratory experiments and computerised geochemical modelling