Intensification of CO2 absorption using MDEA-based nanofluid in a hollow fibre membrane contactor

Cao, Yan; Rehman, Zia Ur; Ghasem, Nayef; Al-Marzouqi, Mohamed; Abdullatif, Nadia; Nakhjiri, Ali Taghvaie; Ghadiri, Mahdi; Rezakazemi, Mashallah; Marjani, Azam; Pishnamazi, Mahboubeh; Shirazian, Saeed

doi:10.1038/s41598-021-82304-2

Cited by 23 publications

(11 citation statements)

References 41 publications

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“…The microconvection motion increased the diffusion coefficient of the nanofluids during mass transfer. Although there was no theoretical study on the enhanced diffusion coefficient, there were empirical formulas available to calculate the diffusion coefficient ( D n ) of CO 2 in nanofluids − D normaln = D normalbf ( 1 + m 1 R e m 2 + S c m 3 + Φ m 4 ) where D bf is the diffusion coefficient of CO 2 in the base fluid, Φ is the volume fraction of nanoparticles, Sc and Re are the Schmidt number and Reynolds number of nanoparticles in Brownian motion, respectively, and m 1 , m 2 , m 3 , and m 4 are 1650, 0.039, −1.064, and 0.203, respectively …”

Section: Enhancement Mechanisms Of Co2 Absorption By Nanofluidsmentioning

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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Section: Enhancement Mechanisms Of Co2 Absorption By Nanofluidsmentioning

confidence: 99%

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

et al. 2023

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“…To solve PDEs of mass and momentum, COMSOL Multiphysics version 6 was installed on a 64-bit platform with an Intel(R) core (TM) i7-10510U CPU and a 16 Gigabyte RAM. The needed time for solving the PDEs and present the results was about 20 s. Moreover, with the aim of managing the material balance error during the solution of mass/momentum PDEs, PARDISO numerical solver was employed owing to its brilliant advantages like excellent memory performance and robustness 58 , 59 . The principal PDEs of mass and momentum in tube, membrane and shell sides are presented in Table 2 .…”

Section: Modelingmentioning

confidence: 99%

Computational fluid dynamics comparison of prevalent liquid absorbents for the separation of SO2 acidic pollutant inside a membrane contactor

Cao

Nakhjiri

Ghadiri

2023

Sci Rep

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In recent years, the emission of detrimental acidic pollutants to the atmosphere has raised the concerns of scientists. Sulphur dioxide (SO2) is a harmful greenhouse gas, which its abnormal release to the atmosphere may cause far-ranging environmental and health effects like acid rain and respiratory problems. Therefore, finding promising techniques to alleviate the emission of this greenhouse gas may be of great urgency towards environmental protection. This paper aims to evaluate the potential of three novel absorbents (seawater (H2O), dimethyl aniline (DMA) and sodium hydroxide (NaOH) to separate SO2 acidic pollutant from SO2/air gaseous stream inside the hollow fiber membrane contactor (HFMC). To reach this goal, a CFD-based simulation was developed to predict the results. Also, a mathematical model was applied to theoretically evaluate the transport equations in different compartments of contactor. Comparison of the results has implied seawater is the most efficient liquid absorbent for separating SO2. After seawater, NaOH and DMA are placed at the second and third rank (99.36% separation using seawater > 62% separation using NaOH > 55% separation using DMA). Additionally, the influence of operational parameters (i.e., gas and liquid flow rates) and also membrane/module parameters (i.e., length of membrane module, hollow fibers’ number and porosity) on the SO2 separation percentage is investigated as another highlight of this paper.

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“…The first investigation on TRP efficiency was published in 1963 by Coppen et al [ 139 ]. In recent years, TRP demonstrated its great potential to improve the antidepressant influence of clomipramine, tricyclic antidepressants, and lithium [ 140 , 141 , 142 , 143 ]. It has been recently corroborated that focusing on the synthesis of the brain’s serotonin may increase the advancement of antidepressant drugs [ 144 ].…”

Section: Pharmacological Influences Of Trp In Neuropsychiatric Diseasesmentioning

confidence: 99%

The Role of Tryptophan Metabolites in Neuropsychiatric Disorders

Davidson

Rashidi

Nurgali

et al. 2022

IJMS

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In recent decades, neuropsychiatric disorders such as major depressive disorder, schizophrenia, bipolar, etc., have become a global health concern, causing various detrimental influences on patients. Tryptophan is an important amino acid that plays an indisputable role in several physiological processes, including neuronal function and immunity. Tryptophan’s metabolism process in the human body occurs using different pathways, including the kynurenine and serotonin pathways. Furthermore, other biologically active components, such as serotonin, melatonin, and niacin, are by-products of Tryptophan pathways. Current evidence suggests that a functional imbalance in the synthesis of Tryptophan metabolites causes the appearance of pathophysiologic mechanisms that leads to various neuropsychiatric diseases. This review summarizes the pharmacological influences of tryptophan and its metabolites on the development of neuropsychiatric disorders. In addition, tryptophan and its metabolites quantification following the neurotransmitters precursor are highlighted. Eventually, the efficiency of various biomarkers such as inflammatory, protein, electrophysiological, genetic, and proteomic biomarkers in the diagnosis/treatment of neuropsychiatric disorders was discussed to understand the biomarker application in the detection/treatment of various diseases.

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Intensification of CO2 absorption using MDEA-based nanofluid in a hollow fibre membrane contactor

Cited by 23 publications

References 41 publications

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

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

Computational fluid dynamics comparison of prevalent liquid absorbents for the separation of SO2 acidic pollutant inside a membrane contactor

The Role of Tryptophan Metabolites in Neuropsychiatric Disorders

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Intensification of CO2 absorption using MDEA-based nanofluid in a hollow fibre membrane contactor

Cited by 23 publications

References 41 publications

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

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

Computational fluid dynamics comparison of prevalent liquid absorbents for the separation of SO2 acidic pollutant inside a membrane contactor

The Role of Tryptophan Metabolites in Neuropsychiatric Disorders

Contact Info

Product

Resources

About

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

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