Your search keyword '"DRAG force"' showing total 2 results

1. Modeling and Simulation of Metallurgical Processes in Ironmaking and Steelmaking.

Author

Echterhof, Thomas, Echterhof, Thomas, Ohno, Ko-Ichiro, and Visuri, Ville-Valtteri

Subjects

History of engineering & technology, Technology: general issues, Gaussian process regression, HYL, Köhle formula, Midrex, RANS/LES/DNS, RecHeat, Rist diagram, arc gap, arc impingement, artificial neural network, blast furnace ironmaking, bubble deformation, bubble generation, bubble size distribution, carbon composite briquette, coke saving, computational fluid dynamic, computational fluid dynamics, continuous casting, continuous charging, direct current, direct reduction, drag force, drying, electric arc, electric arc furnace, energy consumption, energy demand, estimation, evaluation model, evolving modelling, fuzzy modelling, gas density, heat exchanger, heat recovery technology, horizontal single belt casting, inflow condition, lift force, liquid metals, machine learning, magneto hydrodynamics, mass transfer coefficient, mathematical modeling, mathematical modelling, model application, model predictive control, model validation, modelling, n/a, near net shape casting, numerical simulation, porous plugs, pre-reduction, profile optimization, quantitative relationship, reaction kinetics, real-time model, reduction process, regression, rotary kiln, scrap melting, scrap preheating, slag energy content, slag heat recovery, steel refining, steelmaking, steelmaking process, turbulence modelling, twin roll (Bessemer) casting

Abstract

Summary: In recent years, improving the sustainability of the steel industry and reducing its CO2 emissions has become a global focus. To achieve this goal, further process optimization in terms of energy and resource efficiency and the development of new processes and process routes are necessary. Modeling and simulation have established themselves as invaluable sources of information for otherwise unknown process parameters and as an alternative to plant trials that involves lower costs, risks, and time. Models also open up new possibilities for model-based control of metallurgical processes. This Special Issue focuses on recent advances in the modeling and simulation of unit processes in iron and steelmaking. It includes reviews on the fundamentals of modeling and simulation of metallurgical processes, as well as contributions from the areas of iron reduction/ironmaking, steelmaking via the primary and secondary route, and continuous casting.

2. Advances in Hydraulics and Hydroinformatics Volume 2.

Author

Zhou, Jianguo, Borthwick, Alistair, Peng, Yong, Zhang, Jianmin, and Zhou, Jianguo

Subjects

History of engineering & technology, 3D confined wall jet, BSTEM model, Bathy-supp, CFD, CFD-DEM coupling, DEM, FGP (flaring gate pier), Froude number, Gaussian distribution, HEC-RAS controller, LES-VOF method, Ningxia-Inner Mongolia, PIV, Sichuan province, TOPSIS method, Tarim Basin, U-shaped channel, Y-shaped confluence channel, Yellow River, abutment, aerated flow, air bubble chord length, air bubble frequency, air concentration, application depth, artificial ventilation, automation of flow modeling, backward-facing step, best depth, breaking wave, bridge piers, bridge scour, cavitation bubble, central angle of step, chute aerator, clogging, coherent vortex structure, collapse near a wall, collision in air, consistent particle method, dam-break flood, decay rate, desert-oasis areas, discharge coefficient, double cavitation bubble, drag force, drip irrigation, dry season, embankment weir, energy conversion rate, energy dissipation, evolution of precipitation, experiment, experimental model, experimental study, finite crest length weir, flood &amp, floods, flow division, flow property, flow region, flow-induced vibration, fluctuating pressure, flushing, fluvial acoustic tomography, free shear layer, free surface flow, free surface measurement, gate-opening modes, gravity wave model, high-speed photography, hydraulic characteristics, hydraulic jump, hydrocyclone, hydrodynamic modelling, hydrodynamic performance, hyporheic exchange, image processing technology, impact pressure, influencing factors, information entropy theory, jet trajectory, k-ε model, large eddy simulation, lattice Boltzmann method, linearly moved irrigation system, longitudinal velocity, mean flow, micro-jet, model simulation, moving speed, multi-horizontal-submerged jets, multiple bubble collapse, near-field vibration, non-submerged rigid vegetation, numerical analysis, numerical simulation, offset jet, open channel bend, optical motion capturing, orthogonal tests, overtopping flow, parallel cavitation, particle image velocimetry, particle shape, particle size, particle size distribution, phase difference, physical hydraulic modeling, plane gate, plunge pool, pool weir, pooled stepped spillway, potential core, pressure flow, pressure wave energy, pseudopotential lattice Boltzmann model, python scripting, radius-to-width ratio, rainfall intensity distribution, river bathymetry, river flow modeling, riverbank collapse, scour and velocity field, secondary flow, sediment, sediment transport, sediment transport simulation, sediments, sensitivity analysis, separation and reattachment, shallow lake, ski-jump flow, slope coefficient, sloshing, solitary wave, spillway bottom, spillway outlet, stepped dropshaft, stilling basin with shallow-water cushion (SBSWC), subcritical flow, submerged breakwater, submerged flow, submerged jets, surface-piercing propeller, surface−groundwater flow process, synchronized PIV, tank test, three-dimensional aerator, tidal channel junction, tidal discharge, tilt distribution cavitation, trajectory line, transforming mechanism, trapezoidal cross-section, turbulence, turbulent kinetic energy, two water jets, uniformity coefficient, velocity distribution, vortex, vortical evolution, water and sediment separation, water-saving irrigation development level, wave gauge, wavelet analysis, wetland

Abstract

Summary: This Special Issue reports on recent research trends in hydraulics, hydrodynamics, and hydroinformatics, and their novel applications in practical engineering. The Issue covers a wide range of topics, including open channel flows, sediment transport dynamics, two-phase flows, flow-induced vibration and water quality. The collected papers provide insight into new developments in physical, mathematical, and numerical modelling of important problems in hydraulics and hydroinformatics, and include demonstrations of the application of such models in water resources engineering.