Carbon dioxide capture and storage (CCS) can play a vital role in overcoming global warming challenges and can help to reduce carbon footprint significantly from the environment. Carbon dioxide (CO...

Effect of l-Tryptophan in Promoting the Kinetics of Carbon Dioxide Hydrate Formation

Hydrate-based CO2 separation technology is limited by complex formation conditions and low separation efficiency, makes it temporarily unable to realize commercial application. In this review, according to the superiority of additives in strengthening hydrate formation, the effects of different additives on the thermodynamics-kinetics of hydrate formation were systematically summarized, and the strengthening mechanism was further elaborated from the perspectives of hydrate structure change and gas selectivity. Among them, quaternary ammonium salt is more environmentally friendly, and the separation factor reached 37 with TBAF, more than 90 mol% CO2 captured by the two-stage hydrate + membrane separation method. In addition, based on the characteristics of nanoparticles in enhancing heat and mass transfer, the impact of nanoparticles on the formation of CO2 hydrate was summarized, which provided a new idea for the research of additives. More importantly, the effects of experimental conditions and process flow on separation efficiency were also summarized. Energy analysis showed that the use of thermodynamic additives significantly reduced the investment cost of the system by more than 50%. However, higher hydrate formation heat leads to higher energy consumption, and the presence of kinetic additives improves significantly, emphasizing the urgency of developing more stable and lower formation heat thermodynamic additives and exploring the effect of mixed additives on commercial applications. At present, stirring methods were mostly used to strengthen hydrate formation with higher energy consumption. Future research should also strive to carry out experimental measurements under static conditions, and constantly optimize the reaction vessel and process. 

Post-combustion CO2 capture and separation in flue gas based on hydrate technology：A review

Influence of the Particle Size of Porous Media on the Formation of Natural Gas Hydrate: A Review

Metal–organic framework (MOF) and gas hydrate synergy is a potential technology for CH 4 storage and CO 2 separation. This review introduces the structural characteristics of MOFs and gas hydrates and highlights their limitations in gas storage and separation. Herein, the crystal types, pore structures, and wettability of all the MOFs used for CH 4 and CO 2 hydrate formation to date are summarized. The effects of different MOFs on hydrate thermodynamics, kinetics, and gas storage capacity are analyzed, along with the changes in MOF structures. Confined and bulk phase hydrates are formed in MOFs, and the CH 4 hydrate phase equilibrium in MOFs show only negligible changes. Generally, the confined phase equilibrium is more severe than those in the bulk phase. In most studies on the effect of MOFs on hydrate kinetics, only the induction time has been explored, and it can be shortened by adding MOFs. Additionally, the synergistic effect of MOFs and hydrates on CH 4 storage capacity forms a majority of research in this field. Hydrophobic MOFs, synergistic with hydrates, can enhance the CH 4 storage capacity of MOF–hydrate systems. The MOF structure is not influenced by hydrate formation and dissociation. In the case of CO 2 hydrate formation by MOFs, the number of studies is relatively few, although the corresponding results and conclusions are similar to those of CH 4 hydrates. This paper highlights the research progress and challenges associated with MOF–hydrate synergy and their impact on CH 4 storage and CO 2 separation, unveiling new avenues for research in this direction. • Both confined and bulk phase CH 4 hydrates can form in hydrophilic MOFs. • Hydrophobic MOFs enhanced the storage capacity of CH 4 storage capacity. • CH 4 hydrate formation induction time was reduced by HKUST-1, ZIF-67 and ZIF-8. • MOFs structure remained unchanged after CH 4 and CO 2 hydrate dissociation. 

Review on the synergistic effect between metal–organic frameworks and gas hydrates for CH4 storage and CO2 separation applications

CO2 hydrate properties and applications: A state of the art

Quantitative analysis of methane hydrate formation in size-varied porous media for gas storage and transportation application

Over the past several decades, hydrate-based technology has been thought to have enormous application prospects in the energy and environmental fields. For the further development of hydrate-based ...

Review of Morphology Studies on Gas Hydrate Formation for Hydrate-Based Technology

Carbon dioxide (CO2) hydrate is a novel technology for CO2 capture and storage. To achieve more economical and efficient hydrate formation, we investigated the formation of CO2 hydrate with tetrahy...

Morphology-Based Kinetic Study of the Formation of Carbon Dioxide Hydrates with Promoters

High-efficiency gas storage via methane-tetrahydrofuran hydrate formation: Insights from hydrate structure and morphological analyses

The invention belongs to the technical field of gas hydrate generation experiments, and provides an experimental method for capturing full-period forms of gas hydrate crystals. A system adopted by theexperimental method comprises a jacket type visual reaction kettle, image acquisition equipment, a backlight source, a heating and refrigerating circulator, a gas injection pump, a liquid injection pump, a data acquisition system and a computer. According to the experimental method, the memory effect of hydrate secondary generation is utilized, the induction time is shortened, and hydrate crystalform capture under different working conditions below a phase equilibrium point is achieved. The experimental method is not limited by the problem that hydrates are difficult to generate or not generated under the working condition of a near-phase equilibrium point and the problem that the timely induction time is long, so that crystal form capture under more working condition ranges is obtained,the crystallization process of the hydrates is convenient to control, and a morphological basis is provided for hydrate research.

Experimental method for capturing full-period forms of gas hydrate crystals

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