Ammonia Adsorption Performance of Zeolitic Imidazolate Frameworks for Cooling

Liu, Zhilu; Cheng, Ruihuan; Kim, Juyeong; Li, Song

doi:10.1021/acs.langmuir.3c02098

Cited by 3 publications

(1 citation statement)

References 54 publications

(114 reference statements)

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“…The modified structures showed better adsorption properties compared with the unmodified ones. Liu et al used a combination of molecular simulation and mathematical modeling to quickly identify and design high-performance Zif based on its ammonia adsorption isotherm and structural features. Zhao and Yan investigated the microscopic mechanisms of chemical heat storage and lithium or magnesium catalytic adsorption processes using first-principles and transition-state theory.…”

Section: Introductionmentioning

confidence: 99%

Adsorption Behavior of Ammonia on Strontium Bromide Surface: First-Principles Study

Wang,

Yan,

Pan

et al. 2024

Langmuir

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Thermochemical heat storage based on a gas–solid interaction is an effective long-term energy storage technology and is considered as one of the important technologies for the recovery of industrial waste heat and renewable energy sources such as solar energy. There are many working pairs used for thermochemical heat storage, among which ammonium halides are widely trusted for their good thermodynamic properties. It has attracted a lot of attention in the past decade, but it is still in the laboratory-scale research stage. In this study, the adsorption behavior of strontium bromide surfaces on the atomic scale is investigated using density functional theory with SrBr2/NH3 as the working pair. The optimal adsorption location of ammonia molecules on the strontium bromide surface is determined. Meanwhile, different metal atoms were doped to explore the microscopic factors affecting the adsorption. The energy barrier of the SrBr2/NH3 reaction was 4.507 kcal/mol, which was reduced to 4.145 kcal/mol after doping Mg. The thermodynamics of the Ca atoms doped with SrBr2 were significantly improved, with a reduction in the energy barrier to 0.727 kcal/mol. Comparing the three energy barrier results, Ca doping has a significant optimization effect on the thermal storage process. The results could provide relevant information for the investigation of thermochemical adsorption heat storage, provide insight into the adsorption mechanism of ammonium molecules on strontium bromide, and also facilitate the design of efficient composite adsorbents.

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Section: Introductionmentioning

confidence: 99%

Adsorption Behavior of Ammonia on Strontium Bromide Surface: First-Principles Study

Wang,

Yan,

Pan

et al. 2024

Langmuir

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A review on removal CO2, SO2, and H2S from flue gases using zeolite based adsorbents

Zewdie,

Bizualem,

Nurie

2024

Discov Appl Sci

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This review was carried out on removal of flue gases (CO2, SO2, and H2S) that are emitted from various sources. Burning solid fuels for heat, such as natural gas, gasoline, and coal or biomass, results in the production of flue gas. Adsorption of flue gases by utilizing Zeolites was properly explained, including the zeolite synthesis technique, characteristics, zeolite sensitivity, variables that influence the adsorption process, zeolite efficiency, and cost-effectiveness. Zeolites have a notable adsorption capability for CO2, SO2, and H2S, despite their major disadvantage of being poor long-term durability and stability. Remarkable advancements are being made in present-day CO2 capture methods, especially concerning the use of zeolites. Zeolites are unique materials with great potential for CO2 collection because of their tiny holes, high porosity, structural variety, and recyclability. Since atmospheric CO2 concentrations are already more than 415 parts per million, it is imperative to limit future releases of this gas and keep it out of the carbon cycle. The elimination of SO2 by the majority of zeolites was shown to rise with temperatures up to 200 °C and subsequently decrease at higher temperatures. It was also shown that SO2 uptake and breakthrough time are significantly affected by drying zeolite using microwave and traditional heating methods. The sorption capacity and sorbent regenerability of SO2 are sensitive to the presence of other gases in the flue gas, such as O2, CO2, NOx, and water vapor, as well as the reaction temperature. Zeolites must possess strong sulfur loading capacity, good regenerability, and a stable structure to be an effective adsorbent for the removal of H2S. Regarding the utilization of zeolites as adsorbents for the flue gases, new developments, and continuing difficulties have been concluded in this review work.

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Coarse-grained force field for ZIF-8: A study on adsorption, diffusion, and structural properties

Mohamed,

Economou,

Jeong

2024

The Journal of Chemical Physics

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Metal–organic frameworks (MOFs) are revolutionizing a spectrum of industries, from groundbreaking gas storage solutions to transformative biological system applications. The intricate architecture of these materials necessitates the use of advanced computational techniques for a comprehensive understanding of their molecular structure and prediction of their physical properties. Coarse-grained (CG) simulations shine a spotlight on the often-neglected influences of defects, pressure effects, and spatial disorders on the performance of MOFs. These simulations are not just beneficial but indispensable for high-demand applications, such as mixed matrix membranes and intricate biological system interfaces. In this work, we propose an optimized CG force field tailored for ZIF-8. Our work provides a deep dive into sorption isotherms and diffusion coefficients of small molecules. We demonstrate the structural dynamics of ZIF-8, particularly how it responds to pressurization, which affects its crystal structure and leads to local changes in aperture size and area. Emphasizing the game-changing potential of CG simulations, we explore the characteristics of amorphization in ZIF-8. Through computational exploration, we aim to bridge the knowledge gap, enhancing the potential applications of nanoporous materials for various applications.

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Ammonia Adsorption Performance of Zeolitic Imidazolate Frameworks for Cooling

Cited by 3 publications

References 54 publications

Adsorption Behavior of Ammonia on Strontium Bromide Surface: First-Principles Study

Adsorption Behavior of Ammonia on Strontium Bromide Surface: First-Principles Study

A review on removal CO2, SO2, and H2S from flue gases using zeolite based adsorbents

Coarse-grained force field for ZIF-8: A study on adsorption, diffusion, and structural properties

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