Review and Perspectives on CO<sub>2</sub> Bubble Dynamic Characteristics in Different Liquids during Carbon Capture, Utilization, and Storage Process

Gao, Dan; Yang, Jiaxi; Qi, Youwei; Guo, Chuangxin; Zhang, Heng

doi:10.1021/acs.energyfuels.2c03055

Cited by 18 publications

(8 citation statements)

References 113 publications

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“…In the context of carbon control strategies, scholars globally have explored various technologies and methods for reducing carbon emissions from multifaceted perspectives and dimensions. These approaches encompass energy restructuring, innovation in green energy technology, optimization of industrial structures, mechanisms of carbon trading markets, carbon taxation, judicious application of carbon pricing mechanisms, and the deployment of carbon dioxide capture and storage technologies. − Grossman et al categorized the diverse strategies for carbon emission reduction and concluded that at a macro level, CO 2 emission reductions are primarily achieved through three mechanisms: scale effect, technological effect, and structural effect. It is evident that the economic scale, industrial structure, and technological advancement are pivotal factors influencing carbon emissions.…”

Section: Carbon Reduction Technologies and Methods In The Context Of ...mentioning

confidence: 99%

Coal-Fired Power Plants Using Ammonia for Flexibility Enhancement under Carbon Control Strategies: Status, Development, and Perspectives

Ma,

Yu,

Jiang

et al. 2024

Energy Fuels

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Within the context of carbon control strategies, the development and utilization of renewable energy emerge as indispensable pathways to addressing the energy crisis and environmental challenges. The substantial increase in the share of electricity generated from renewable sources introduces issues such as instability and intermittency, posing significant challenges to the stability of the electrical grid. Consequently, enhancing the flexibility of coalfired power units is of paramount importance for maintaining the balance of supply and demand within the power system and managing grid fluctuations. Ammonia energy storage, as an innovative chemical storage solution, is regarded as an effective approach to augment the power system's capability to incorporate renewable energy generation and enhance the flexibility of coal-fired power plants. This paper summarizes three carbon reduction technologies and methodologies within the framework of carbon control strategies, elucidating the advantages and value that ammonia contributes to the process of increasing power plant flexibility. It proposes a method for coupling green power with conventional thermal power through electrolytic ammonia production, tailored for power plants. Additionally, it identifies two principal applications of ammonia within power plants as a carbon-free fuel and absorbent. Finally, it anticipates the future development trends and challenges of ammonia's role in enhancing power plant flexibility.

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Section: Carbon Reduction Technologies and Methods In The Context Of ...mentioning

confidence: 99%

Coal-Fired Power Plants Using Ammonia for Flexibility Enhancement under Carbon Control Strategies: Status, Development, and Perspectives

Ma,

Yu,

Jiang

et al. 2024

Energy Fuels

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“…Its paramount importance relies not only on its wide application in many different industrial operations but also on its broad occurrence in numerous natural processes, such as methane seep in marine fissures or gas bubbles in volcano eruptions 1,2 . Regarding technical applications, bubble rising is relevant in areas as diverse as water treatment, mineral flotation, carbon capture, drag reduction, ocean microplastics scavenging, or medical treatment and diagnosis, among many other techniques [3][4][5][6][7][8][9][10] .…”

Section: Introductionmentioning

confidence: 99%

Bubble rising near a vertical wall: Experimental characterization of paths and velocity

Estepa-Cantero,

Martínez-Bazán,

Bolaños-Jiménez

2024

Preprint

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The trajectories of a single bubble rising in the vicinity of a vertical solid wall are experimentally investigated. Distinct initial wall-bubble distances are considered for three different bubble rising regimes, i.e. rectilinear, planar zigzag, and spiral. The problem is defined by three control parameters, namely the Galilei number, Ga, the Bond number, Bo, and the initial dimensionless distance between the bubble centroid and the wall, L. We focus on high-Bond numbers, varying L from 1 to 4, and compare the results with the corresponding unbounded case L → ∞ . In all cases, the bubble deviates from the expected unbounded trajectory and migrates away from the wall as it rises due to the overpressure generated in the gap between the bubble and the wall. This repulsion is more evident as the initial wall-bubble distance decreases. Moreover, in the planar zigzagging regime, the wall is found to impose a preferential zigzagging plane perpendicular to it when L is small enough. Only slight wall effects are observed in the velocity or the oscillation amplitude and frequency. The wall migration effect is more evident for the planar zigzagging case and less relevant for the rectilinear one. Finally, the influence of the vertical position of the wall is also investigated. When the wall is not present upon release, the bubbles have the expected behavior for the unbounded case and experience the migration only instants before reaching the wall edge. This repulsion is, in general, more substantial than in the initially-present-wall case.

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“…2 Carbon capture, utilization, and storage (CCUS) can be used to meet these goals. 3 The absorption method is the most commonly used carbon capture method in industry and practical application, and the absorbent has a crucial effect on the absorption process; thus, the choice of the absorbent is directly relevant to the decarbonization effect. 4 In 1995, Choi was the first to refer to a stable suspension formed by the uniform dispersion of tiny particles in a liquid as nanofluids.…”

Section: Introductionmentioning

confidence: 99%

“…To fulfill the Paris Agreement’s 1.5 °C targets, global CO 2 emissions were set to fall 45% below 2010 levels by 2030 and then become carbon-neutral by 2050 . Carbon capture, utilization, and storage (CCUS) can be used to meet these goals . The absorption method is the most commonly used carbon capture method in industry and practical application, and the absorbent has a crucial effect on the absorption process; thus, the choice of the absorbent is directly relevant to the decarbonization effect …”

Section: Introductionmentioning

confidence: 99%

Review and Perspectives of CO₂ Absorption by Water- and Amine-Based Nanofluids

et al. 2023

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The emission of greenhouse gases, especially CO2, has become a major cause of environmental degradation, and carbon capture, utilization, and storage (CCUS) is a proposed solution to mitigate its impact. Nanofluids, a relatively new method for CO2 absorption, have gained attention in recent years. This review focuses on conventional methods for preparing nanofluids along with techniques to improve their stability and enhance the CO2 absorption and desorption mechanisms. Additionally, the influences of factors, i.e., nanoparticle and base solution types as well as nanoparticle concentration, on the CO2 absorption process are summarized. Furthermore, models that can predict the absorption of CO2 accurately are outlined. It is found that the types of both base liquids and nanoparticles have an important impact on the absorption by nanofluids. In-depth studies on the predictive capabilities of artificial intelligence (AI) models hold immense potential in this regard. This review also puts forth effective strategies to address prevailing challenges. This will provide a solid theoretical basis for this field and underscore the promising potential of nanofluids as CO2 solvents. There are still many unexplored aspects to be considered, such as the economic viability and energy consumption of this technology.

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Review and Perspectives on CO₂ Bubble Dynamic Characteristics in Different Liquids during Carbon Capture, Utilization, and Storage Process

Cited by 18 publications

References 113 publications

Coal-Fired Power Plants Using Ammonia for Flexibility Enhancement under Carbon Control Strategies: Status, Development, and Perspectives

Coal-Fired Power Plants Using Ammonia for Flexibility Enhancement under Carbon Control Strategies: Status, Development, and Perspectives

Bubble rising near a vertical wall: Experimental characterization of paths and velocity

Review and Perspectives of CO₂ Absorption by Water- and Amine-Based Nanofluids

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Review and Perspectives on CO2 Bubble Dynamic Characteristics in Different Liquids during Carbon Capture, Utilization, and Storage Process

Cited by 18 publications

References 113 publications

Coal-Fired Power Plants Using Ammonia for Flexibility Enhancement under Carbon Control Strategies: Status, Development, and Perspectives

Coal-Fired Power Plants Using Ammonia for Flexibility Enhancement under Carbon Control Strategies: Status, Development, and Perspectives

Bubble rising near a vertical wall: Experimental characterization of paths and velocity

Review and Perspectives of CO2 Absorption by Water- and Amine-Based Nanofluids

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Product

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About

Review and Perspectives on CO₂ Bubble Dynamic Characteristics in Different Liquids during Carbon Capture, Utilization, and Storage Process

Review and Perspectives of CO₂ Absorption by Water- and Amine-Based Nanofluids