Hydrogen Storage Properties of Vanadium‐Decorated Holey Graphyne: A Density Functional Theory Study
A V‐decorated HGY exhibits strong yet reversible H2 adsorption, delivering a hydrogen storage capacity of 6.43 wt% with an adsorption energy of −0.46 eV and a desorption temperature of 378 K. ABSTRACT Hydrogen storage remains a key challenge for the practical deployment of hydrogen‐based energy systems due to the limited storage capacity and weak ...
Poonam Parkar +2 more
wiley +1 more source
Multi-channel ultrasonic Bessel vortex beams by spatial multiplexing metalens. [PDF]
Su Y, Wang D, Gu Z, Liu C, Zhu J.
europepmc +1 more source
A Fast Prediction Method for Wide-Angle Bistatic Scattering and Reflection Coefficients of Acoustically Coated Plates. [PDF]
Zhang Y, Peng Z, Tan L, Wu S, Lv E.
europepmc +1 more source
Design of an accessible turbulence chamber for laboratory experiments. [PDF]
Federle ME +3 more
europepmc +1 more source
A CEL simulation approach for penetration-leveling of the multi-bucket foundation incorporating the temperature analogy method. [PDF]
Gao K, Cheng Z, Yu K, Qiu Y.
europepmc +1 more source
The influence of hydraulic hose length on dynamic pressure waveforms including wave phenomena. [PDF]
Stosiak M, Bury P, Karpenko M.
europepmc +1 more source
Water-Wave Pancharatnam-Berry Phase Induced by 4D Spin-Orbit State Evolution. [PDF]
Xiao W, Jia S, Fu T, Wang S.
europepmc +1 more source
A 3D Numerical Wave Tank for Coastal Engineering Studies
This paper presents the validation of active and passive, made by a dissipation beach, numerical absorbing methods implemented in RANS-VOF FLUENT® code for modelling long time series of wave propagation interacting with coastal structures. Verification of both numerical techniques was performed in 2D – wave flume, and 3D – wave tank, this one using a ...
Didier, E., Teixeira, P., Neves, M. G.
openaire +3 more sources
Comparison of Numerical Methods for Wave Generation by VOF-Based Numerical Wave Tank
Based on the Reyonlds Averaged Navier-Stokes (RANS) equation for incompressible, viscous fluid, a VOF-based numerical wave tank which could accurately generate and absorb waves is investigated. Three different wave-making functions, namely ‘Inlet-velocity boundary condition (IBC)’, ‘Momentum source (MOS)’, ‘Mass source (MAS)’ are investigated, and the ...
Bingjie Guo, Sverre Steen
openaire +2 more sources
Force-controlled absorption in a fully-nonlinear numerical wave tank [PDF]
An active control methodology for the absorption of water waves in a numerical wave tank is introduced. This methodology is based upon a force-feedback technique which has previously been shown to be very effective in physical wave tanks.
Johannes Spinneken +2 more
exaly +2 more sources

