Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: January 2015
Authors: Nikolay Vatin, Julia Zolotova, Eugenia Tuchkevich, Alexandr Rechinsky
Now more than 9 million users worldwide rely on leading 2D and 3D Autodesk technologies for visualization, simulation and analysis at the early stages of design.
Revit is a full - featured solution that combines the capabilities of architectural design, design of engineering systems, building structures, and simulation of construction.
Compatibility with other products allows students work on professional level while developing a project. 4th year students held aerodynamic simulation in Autodesk Flow Design when designing high-rise buildings (Fig.8) Figure 8.
Analyzing Indoor Environment of Minahasa Traditional House Using CFD (2014) Procedia Environmental Sciences, 20, pp. 172-179
Revit is a full - featured solution that combines the capabilities of architectural design, design of engineering systems, building structures, and simulation of construction.
Compatibility with other products allows students work on professional level while developing a project. 4th year students held aerodynamic simulation in Autodesk Flow Design when designing high-rise buildings (Fig.8) Figure 8.
Analyzing Indoor Environment of Minahasa Traditional House Using CFD (2014) Procedia Environmental Sciences, 20, pp. 172-179
Online since: November 2015
Authors: Bidyut B. Gogoi
Later on, the 1-D convergent-divergent nozzle problem (De laval nozzle problem) is also considered and numerical simulations are performed.
In 1988, Abarbanel et al. [1] proposed a HOC method for the simulation of Euler equations.
Shu, High-order Finite Difference and Finite Volume WENO Schemes and Discontinuous Galerkin Methods for CFD, Int.
In 1988, Abarbanel et al. [1] proposed a HOC method for the simulation of Euler equations.
Shu, High-order Finite Difference and Finite Volume WENO Schemes and Discontinuous Galerkin Methods for CFD, Int.
Online since: March 2019
Authors: The Nam Tran, Van Uy Dang, Dai An Nguyen
It is firstly based on the assessment on the heat release processes inside the diesel engine cylinder upon a specific simulation with different blends of SVO and diesel oil.
The theoretical study is a simulation process that is used for evaluating the combustion of fuels inside cylinders of a diesel engine, including originally designed fuel for the test diesel engine and an alternative fuel (mixed fuel).
Regarding to simulation process, GT-Power software is selected as being a notable professional modelling tool to study the cylinder combustion of diesel oil and mixed fuels with different percentage of VO.
This software is able to link with others in order to increase the accuracy of results, such as CFD Star-CD, Fluent, Simulink, MS-Excel, etc.
To overcome this problem, the research methodology including simulation by GT-Power software and experimental tests are positive solution.
The theoretical study is a simulation process that is used for evaluating the combustion of fuels inside cylinders of a diesel engine, including originally designed fuel for the test diesel engine and an alternative fuel (mixed fuel).
Regarding to simulation process, GT-Power software is selected as being a notable professional modelling tool to study the cylinder combustion of diesel oil and mixed fuels with different percentage of VO.
This software is able to link with others in order to increase the accuracy of results, such as CFD Star-CD, Fluent, Simulink, MS-Excel, etc.
To overcome this problem, the research methodology including simulation by GT-Power software and experimental tests are positive solution.
Online since: April 2017
Authors: Yong Yang, Cheng Jun Chen, Zhi Qiang Dong, Li Hua Wei, Long Chen
The device model is built using NX8.5 UG 3D software, and is imported into the ICEM CFD ANSYS software.
Conclusions (1) The key technologies of finite element modeling and simulation of impacting process by tidal current are presented, which include the control equation, turbulence model, physical boundary model and other modeling techniques
Conclusions (1) The key technologies of finite element modeling and simulation of impacting process by tidal current are presented, which include the control equation, turbulence model, physical boundary model and other modeling techniques
Mechanism Reduction of Hydrogen Production from Dimethyl Ether Partial Oxidation by Plasma Reforming
Online since: July 2013
Authors: Xing Hu Li, Ling Jun Song
CHEMKIN is a very powerful package to solve complex chemical reaction, commonly used in simulation of combustion process, catalytic process, chemical vapor deposition, plasma and other chemical reaction.
It provides a feasible way for CFD calculation.
It provides a feasible way for CFD calculation.
Online since: July 2023
Authors: Elizaldo Domingues dos Santos, Liércio André Isoldi, Andrei Luís Garcia Santos, Adriane Prisco Petry, Gustavo da Cunha Dias, Jeferson Avila Souza
This work presents the development of a computational model for the simulation of an Oscillating Water Column device that converts wave flow into electrical energy.
Despite of consideration of laminar flow in the work of [6], present simulations are performed using turbulent modeling.
In the simulations, the pressure-based algorithm was used and the second order upwind for the momentum equation resolution.
The URANS SST κ-ω turbulence model was selected for the simulation.
Wilcox, Turbulence modeling for CFD, second ed., DCW Industries, La Canada, 2002
Despite of consideration of laminar flow in the work of [6], present simulations are performed using turbulent modeling.
In the simulations, the pressure-based algorithm was used and the second order upwind for the momentum equation resolution.
The URANS SST κ-ω turbulence model was selected for the simulation.
Wilcox, Turbulence modeling for CFD, second ed., DCW Industries, La Canada, 2002