To confirm the multilayer structure can reduce swelling, the blended suspension of the sulfonated polyarylene ether nitrile and sulfonated carbon nanotubes also have been prepared and tested.
The development of flexible fuel cells has been hindered by the rigid components and stringent requirements for pressure encapsulation and fuel sealing. Here we report an adaptive internal pressure encapsulation strategy that leverages the dynamic swelling behaviour of woven cotton fibres enclosed i
The water-alternating-with-gas process is widely applied in oil recovery but faces challenges such as gas channeling and clay swelling that significantly reduce efficiency.
With the exhaustion of traditional energy sources—such as fossil fuels—and the growing emphasis on environmental protection, finding new sustainable energy sources to replace fossil fuels has become imperative.
The effect of swelling treatment on the swelling properties, surface morphology, functional group distribution, and pyrolysis performance of the residues was investigated.
Swelling Behavior of Carboxymethylchitosan-Based Nanocomposite Hydrogels in Response to Different Stimuli (Salinity, pH, and Temperature) and the Gels'' Microfluidic Capability for Water Shut-Off Applications
Cotton yarns encapsulated by a gel layer show dynamic swelling in methanol, creating interfacial self-reinforcement and pressure modulation mechanisms that enable the fabrication of fibre-shaped
To solve this problem, an anti-swelling 3D nanohydrogel is demonstrated, which is in situ polymerized in the nanoporous polyimide (PI) membrane, exhibiting ultrahigh power density in osmotic energy conversion.
In this study, a two-dimensional PEM fuel cell deformation model and a three-dimensional computational fluid dynamics (CFD) model are coupled to study the performance of fuel cell. Emphasis is placed on the influence of membrane swelling and clamping force on the performance of fuel cell.
The new filtration membrane can efficiently separate heavy and light components from oil, and it is resistant to the swelling that tends to occur with other types of oil separation membranes.
The water-alternating-with-gas process is widely applied in oil recovery but faces challenges such as gas channeling and clay swelling that significantly reduce efficiency.
