1. Home
  2.  - numerical simulation on the long

Hot Sale Products

Our popular products have been exported to more than 150 countries and are recognized as a money maker in the mining and minerals industry.

img-toux

E-MAIL
[email protected]

ADDRESS
Zhengzhou, China

  • Within 24 Hours Email Reply
  • Turnkey Solution For You
  • Factory-direct Sale, Fast Delivery
  • Company and Factory Visit

Recommended News

  • Numerical simulation on the long-term behavior of CO2

    AbstractIn this study, numerical simulations are conducted to predict the long-term behavior of CO2 injected into a deep saline aquifer composed of alternating sandstone and shale layers. We carried out a base-case simulation with a conceptual model broadly based on the geological structure underlying the Tokyo Bay area and sensitivity analyses of key parameters. The

  • Numerical simulation experiments on the long-term

    We have used the TOUGH2-MP/ECO2N code to perform numerical simulation studies of the long-term behavior of CO{sub 2} stored in an aquifer with a sloping caprock. This problem is of great practical interest, and is very challenging due to the importance of multi-scale processes. We find that the mechanism of plume advance is different from what is seen in a forced

  • (PDF) NUMERICAL SIMULATIONS ON INFLUENCE OF

    numerical simulations on influence of long-term fluctuation of mean water level on sand waves in the kanmon waterway, japan December 2020 Coastal Engineering Proceedings

  • Work Package 3: Numerical simulation of long-period

    Numerical simulation of long-period ground motion . Although there exists an extensive bibliography concerning the effect of basin or valleys on surface waves generation, most of those works have focused on i) 2D or 3D idealized geometries, ii) homogeneous media; iii) elastic soil behaviour and iv) idealized input motions. In the project, numerical simulations will be first

  • Frontiers Numerical Simulation on Impact Test of CFRP

    The numerical simulation based on the finite element method provides an effective means to obtain the dynamic performance of different specimens under more working conditions, among them, the LS-DYNA program is currently the most widely used finite element analysis software in this field, many researchers have used this software to simulate the dynamic response of

  • Numerical simulation on the dynamics of continental

    This study simulated continental lithosphere extension and break‐up through performing 2D numerical modelling with the “I2VIS” code. Based on the simulation results, the process of continental lithosphere extension and break‐up at different stages under different boundary conditions is quantitatively analysed, and its major controlling factors were determined.

  • Numerical simulation on methane-hydrogen explosion in

    01.08.2020· 2.1. Numerical simulation. Due to the large volume of gas compartment in utility tunnel, where a compartment is at least 200 m long, 1.8 m wide and 2.4 m high, the experiment method to research explosion is difficult.

  • Numerical simulation SWANTEC

    Numerical simulation. There are many numerical methods used for simulation of engineering problems, among which the finite difference method (FDM) and the finite element method (FEM) are the most commonly used. As illustrated in the figure below, the finite difference model gives a point-wise approximation to a problem with an array of grid points subdividing the geometry

  • Numerical simulation of the long-wave runup on a coast

    Numerical simulation of the long-wave runup on a coast. April 2003; Russian Journal of Numerical Analysis and Mathematical Modelling 18(2):135-158; DOI:

  • Numerical simulation on the dynamics of continental

    This study simulated continental lithosphere extension and break‐up through performing 2D numerical modelling with the “I2VIS” code. Based on the simulation results, the process of continental lithosphere extension and break‐up at different stages under different boundary conditions is quantitatively analysed, and its major controlling factors were determined.

  • Numerical Simulation of Wind-Driven Rain on a Long

    Furthermore, a detailed numerical simulation of WDR on a long-span bridge, North Bridge of Xiazhang Cross-sea Bridge is conducted. The simulation results indicate that although the loads induced by raindrops on the bridge surfaces are very small as compared to the wind loads, extreme rain intensity may occur on some windward surfaces of the bridge. The adopted numerical methods and rain

  • An industrial view on numerical simulation for aircraft

    compute all major multi-disciplinary aspects of an aircraft, in the long term it will become possible to ‘fly’ and investigate the complete aircraft in the computer. Currently numerical simulation provides good means to analyse the flow around the aircraft in detail, although the regime of flow separation onset up to maximum lift conditions is still not modelled accurately enough

  • Finite volume schemes for the numerical simulation of

    Compartmental models can be used for inverse modeling of long distance tracer transport experiments in plants. Such transport models describe axial convection and diffusion as well as exchange between compartments, and are defined by partial differential equations (PDEs). Since for inverse modeling, Finite volume schemes for the numerical simulation of tracer transport in plants Math

  • A numerical simulation on dynamic behavior of pushing

    For obtaining a long telescoping distance, this mechanism adopts a helicoids A numerical simulation on dynamic behavior of pushing chain mechanism Leiyu Zhang, Yang Yang, 2016

  • Numerical simulation of unsteady aerodynamic

    05.03.2020· Numerical simulations of the unsteady aerodynamic characteristics of the flapping wing composite motion are performed. To avoid negative grid sizes arising with the use of a dynamic grid and leading to divergences in the simulation and to errors in the results, an overlapping nested grid is used for the flow field background, wing, and fuselage structure.

  • Numerical Simulations of Liquid−Liquid Flows in

    However, for Q w a t e r /Q oil > 1.7, unlike the (long) slug flow reported in the aforementioned Garstecki et al. literature, a parallel flow was observed in the numerical simulations. The effect of wall adhesion (contact angle) on the flow regimes and slug lengths was also investigated. The experimentally validated computational model will be useful to simulate mixing, transport processes

  • Numerical Simulation of the Influence of Grain Size on

    It has long been recognized that the strength of brittle rocks decreases with the grain size. However, very few systematic investigation of this phenomenon has been made using numerical method. This paper presents the results of a numerical simulation using the Rock Failure Process Analysis code (RFPA2D) to investigate the effects of grain size on the uniaxial compressive strength and the

  • Numerical Simulation of Nose Bluntness Effects on

    found no instability reversal at very large nose radii. On the other hand, Stetson’s Mach 8 test model was not long enough to observe transition in his experiments. In other words, transition reversal phenomenon was not actually observed experimentally in Stetson’s Mach 8 test cases. It is worthwhile to study, by both numerical simulation and LST, the mechanisms of transition reversal on