Lanlan Jiang
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View article: Developments and challenges in hydrate-based carbon dioxide sequestration technology
Developments and challenges in hydrate-based carbon dioxide sequestration technology Open
Hydrate-based carbon dioxide (CO 2 ) sequestration (HBCS) technology utilizes naturally occurring high-pressure and low-temperature marine conditions to convert CO 2 into solid hydrates within marine sediments, offering a promising complem…
View article: Reactive Crystallization in Unsaturated Porous Media
Reactive Crystallization in Unsaturated Porous Media Open
Crystal nucleation and growth reshape the mechanical, transport and reactive properties in subsurface porous media. We visualize CO 2 hydrate formation and growth in a microfluidic unsaturated porous medium and uncover novel multiscale dyn…
View article: Gas Production and Storage Using Hydrates Through the Replacement of Multicomponent Gases: A Critical Review
Gas Production and Storage Using Hydrates Through the Replacement of Multicomponent Gases: A Critical Review Open
With the continuous growth of global energy demand and the gradual depletion of traditional fossil energy reserves, natural gas hydrates have attracted widespread attention as a potential clean energy source due to their vast reserves and …
View article: The Origin and Development of Anti-Drug Social Work in Chinese Mainland
The Origin and Development of Anti-Drug Social Work in Chinese Mainland Open
Anti-drug social work is a critical component of anti-drug initiatives and plays a crucial role in addressing drug-related issues within society. As a relatively new field within social work, it incorporates specialized theories and profes…
View article: Pore-scale study on interfacial characteristic of CO2-oil-glass beads during CO2-EOR
Pore-scale study on interfacial characteristic of CO2-oil-glass beads during CO2-EOR Open
CO2-EOR (Enhanced Oil Recovery) is a vital method to increase oil recovery while significantly lower greenhouse gas emissions.The near-miscible conditions are useful to improve displacement efficiency and oil recovery by CO2 injection.In t…
View article: Inhibiting effect of a composite formulation of kinetic and thermodynamic inhibitors for gas hydrate formation in high water cut oil–water emulsion
Inhibiting effect of a composite formulation of kinetic and thermodynamic inhibitors for gas hydrate formation in high water cut oil–water emulsion Open
In oil and gas exploitation and transportation, it is essential to avoid hydrate blockage in the wellbores and pipelines. Using kinetic inhibitors in composite with thermodynamic inhibitors can reduce the operational expenditure for oil an…
View article: A glutamate receptor-like gene is involved in ABA-mediated growth control in <i>Physcomitrium</i> (<i>Physcomitrella) patens</i>
A glutamate receptor-like gene is involved in ABA-mediated growth control in <i>Physcomitrium</i> (<i>Physcomitrella) patens</i> Open
Plant glutamate receptor homologs (GLRs), which function as key calcium channels, play pivotal roles in various developmental processes as well as stress responses. The moss Physcomitrium patens, a representative of the earliest land plant…
View article: A review of the gas hydrate phase transition with a microfluidic approach
A review of the gas hydrate phase transition with a microfluidic approach Open
Over the years, natural gas hydrates (NGHs) have attracted significant attention as an emerging energy resource. Microfluidics is a novel technology used to observe the behaviour of NGHs in microchannels directly and has been applied to hy…
View article: A glutamate receptor-like gene is involved in ABA-mediated growth control in <i>Physcomitrium</i> (<i>Physcomitrella) patens</i>
A glutamate receptor-like gene is involved in ABA-mediated growth control in <i>Physcomitrium</i> (<i>Physcomitrella) patens</i> Open
Plant glutamate receptor homologs (GLRs), which function as key calcium channels, play pivotal roles in various developmental processes as well as stress responses. The moss Physcomitrium patens, a representative of the earliest land plant…
View article: New Spectrophotometric Method for Quantitative Characterization of Density-Driven Convective Instability
New Spectrophotometric Method for Quantitative Characterization of Density-Driven Convective Instability Open
CO2 convective dissolution has been regarded as one of the fundamental mechanisms to accelerate the mass transfer of CO2 into brine. We present a new spectrophotometric method to characterize the convective instability and measure the diss…
View article: Unstable Density‐Driven Convection of CO<sub>2</sub> in Homogeneous and Heterogeneous Porous Media With Implications for Deep Saline Aquifers
Unstable Density‐Driven Convection of CO<sub>2</sub> in Homogeneous and Heterogeneous Porous Media With Implications for Deep Saline Aquifers Open
Density‐driven convection mixing has been identified to enhance CO 2 trapping in deep saline aquifers storage. In this study, the dynamics of fingering instability and associated mass transfer caused by convection mixing between the moveme…
View article: Visualization study on the promotion of depressurization and water flow erosion for gas hydrate production
Visualization study on the promotion of depressurization and water flow erosion for gas hydrate production Open
Natural gas hydrates (NGHs) are a potential energy source for the future. The efficient exploitation of NGHs has been a hot topic of worldwide research. At present, the depressurization is considered as the most effective method for NGHs e…
View article: Characterizing the Dissolution Rate of CO2-Brine in Porous Media under Gaseous and Supercritical Conditions
Characterizing the Dissolution Rate of CO2-Brine in Porous Media under Gaseous and Supercritical Conditions Open
The CO2-brine dissolution homogenizes the distribution of residual CO2 and reduces the leakage risk in the saline aquifer. As a key parameter to immobilize the free CO2, the dissolution rate of CO2-brine could be accelerated through mechan…
View article: Determination of Swelling Effect in CO2-Brine Systems Using Microfocus X-ray CT
Determination of Swelling Effect in CO2-Brine Systems Using Microfocus X-ray CT Open
As one of the most viable technique, geological sequestration of CO2 has great potential for storing large amount of the injected CO2 into brine by dissolution. Understanding the mass transfer of CO2 into a brine sample is of great importa…
View article: Experimental Study of Density-Driven-Convection Mixing in Hele-Shaw cell
Experimental Study of Density-Driven-Convection Mixing in Hele-Shaw cell Open
The convective mixing process is important for the long-term storage of CO2 because the chemical mineralization of porous rocks due to CO2 dissolution will eventually take place. In this paper, density-driven-convection mechanism is invest…
View article: Saturation comparison of CO2 containing N2 at different injection velocities and conditions by X-ray CT scanning
Saturation comparison of CO2 containing N2 at different injection velocities and conditions by X-ray CT scanning Open
Understanding the residual trapping mechanisms is important to design successful CO2 storage projects. CO2 injected in field sequestration site are usually combined with various kinds of impurities. N2 is the most common component, occupyi…
View article: Influence of Sedimentation Heterogeneity on CO2 Flooding
Influence of Sedimentation Heterogeneity on CO2 Flooding Open
To study CO2 flow characteristics in heterogeneous rock, we designed a laboratory experimental system that visualizes the CO2 movements in rock specimens by using X-ray computed tomography (CT). We carried out laboratory experiments of CO2…
View article: Experimental Evaluation of Injection Pressure and Flow Rate Effects on Geological CO2 Sequestration Using MRI
Experimental Evaluation of Injection Pressure and Flow Rate Effects on Geological CO2 Sequestration Using MRI Open
Deep Saline aquifers are promising long-term storage sites for CO2 emissions. The injection pressure is one of major factor that determines CO2 migration phase equilibrium, and the flow rate influences the injectivity behavior and plume mi…
View article: Study of Density Driven Convection in a Hele-Shaw Cell with Application to the Carbon Sequestration in Aquifers
Study of Density Driven Convection in a Hele-Shaw Cell with Application to the Carbon Sequestration in Aquifers Open
Faster dissolution of CO2 within aquifers plays a crucial role in the optimal storage of carbon dioxide injected into reservoirs. The mixture of CO2 and brine triggers convection currents in the aquifer and creates a remarkable increase of…
View article: The Influence of Heterogeneity in Wettability and Pore Structure in CO2 Geological Sequestration: A Pore-scale Study
The Influence of Heterogeneity in Wettability and Pore Structure in CO2 Geological Sequestration: A Pore-scale Study Open
Owing to the complexity of geological formation, a detailed understanding of all transportation phenomenon of CO2/water in porous media occurring in CGS is not yet gained. Heterogeneity in wettability and pore structure exists in mostly na…