A5100360663- Advanced Measurement and Metrology Techniques
- Advanced machining processes and optimization
- Advanced Numerical Analysis Techniques
- Wave and Wind Energy Systems
- Coastal and Marine Dynamics
- Advanced Surface Polishing Techniques
- Enhanced Oil Recovery Techniques
- Hydraulic Fracturing and Reservoir Analysis
- Hydrocarbon exploration and reservoir analysis
- Optical measurement and interference techniques
- Advanced Welding Techniques Analysis
- Membrane Separation and Gas Transport
- Fluid Dynamics Simulations and Interactions
- Reservoir Engineering and Simulation Methods
- Drilling and Well Engineering
- Aluminum Alloys Composites Properties
- Earthquake and Tsunami Effects
- Underwater Vehicles and Communication Systems
- Metal-Organic Frameworks: Synthesis and Applications
- Manufacturing Process and Optimization
- Ship Hydrodynamics and Maneuverability
- Synthetic Aperture Radar (SAR) Applications and Techniques
- Geophysical Methods and Applications
- Remote-Sensing Image Classification
- Extraction and Separation Processes
China University of Geosciences (Beijing)
2021-2024
Shanghai Jian Qiao University
2015-2024
Research Institute of Petroleum Exploration and Development
2021-2024
Shanghai Jiao Tong University
2015-2024
Tianjin University
2020-2024
Southwest Petroleum University
2023-2024
Columbia University
2024
Beijing Institute of Technology
2024
Lawrence Berkeley National Laboratory
2021-2024
Sinopec (China)
2024
Abstract Metal–organic framework (MOF) glasses are promising candidates for membrane fabrication due to their significant porosity, the ease of processing, and most notably, potential eliminate grain boundary that is unavoidable polycrystalline MOF membranes. Herein, we developed a ZIF‐62 glass exploited its intrinsic gas‐separation properties. The was fabricated by melt‐quenching treatment an in situ solvothermally synthesized on porous ceramic alumina support. molten phase penetrated into...
This Perspective focuses on innovation and advanced design of membranes for carbon dioxide separation, triggered by new organic microporous materials.
Hydrogen-bonded organic frameworks (HOFs) have emerged as a new class of crystalline porous materials, and their application in membrane technology needs to be explored. Herein, for the first time, we demonstrated utilization HOF-based mixed-matrix CO2 separation. HOF-21, unique metallo-hydrogen-bonded framework material, was designed processed into nanofillers via amine modulator, uniformly dispersing with Pebax polymer. Featured mix-bonded framework, HOF-21 possessed moderate pore size...
Summary Multiphase flow behavior in the complex porous media of lacustrine shale oil is critical to production performance. Shale reservoir processes spatial spaces multiscale media. In view mesoscopic scale, fluids behaviors reservoirs are significantly different from that tight and multimedia fluxes have be reevaluated. Furthermore, upscaling methods scale macroscopic level as well coupling mass transfer not been adequately established. Based on multiple model, such organic-inorganic...
The development of carbon capture, utilization, and storage technologies has notably advanced CO2-enhanced oil recovery (EOR) in shale reservoirs, which are characterized by abundant nanopores. These nanopores induce unique phase behaviors hydrocarbons, challenging traditional equilibrium calculation methods. This paper presents a novel three-phase thermodynamic model (vapor–liquid-adsorbed calculation) that addresses these challenges considering the nanopore capillary pressure, critical...
Porosity is a limiting factor in the processing of aluminum-alloys with Directed Energy Deposition (DED) and other Additive Manufacturing technologies, such as Laser Powder Bed Fusion. Especially mechanical properties additively manufactured samples are strongly dependent from porosity, thus, understanding parameters influencing porosity crucial. In this work, detailed study factors, which usually not considered but can affect AlMgScZr-alloy DED samples, presented. To end, influence powder...