AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |
Back to Blog
Fluid dynamics10/25/2022 ![]() ![]() examined system design parameters and network connections for visualization of CFD simulations at indoor environment with AR and mapped simulation results ( Fukuda et al., 2019). proposed a cloud computing network to entertain users’ interaction in VR with CFD simulations ( Kim et al., 2018). Various approaches have since then been reported to deal with the hurdles encountered. #Fluid dynamics manual#However, these early studies exhibit a manual integration of CFD and AR/VR with dedicated instruments, with no consideration given to system architecture ( Berger and Cristie, 2015). was among the first ones to develop a plausible workflow for implementing CFD simulation results in AR/VR using the Unit圓D game engine. Integrating CFD simulations with AR/VR recently received scholarly attention due to technical complexities related to system architecture. These result in a broad database in the literature illustrating and solving multiple spatio-temporal cases. #Fluid dynamics software#To date, several commercial and open-source software packages have been developed providing miscellaneous options to design and analyze reactive flow phenomena ( Tian et al., 2018). Multiphysics CFD simulations for CRE have received much interest in the past decade. 1.1 Interactive Multiphysics CFD Simulations in AR/VR The present study develops a methodology for a sustainable system architecture to integrate the desired digital simulation contents into AR/VR. ![]() The term system architecture has come to be used as a portrayal of the system that consists of software and hardware including their functionalities and interactions ( Blach et al., 1998). Despite this, several ambiguities are still present concerning the integration of CFD simulations with AR/VR in terms of system architecture. The interest in CRE and CFD on multiple scales has recently convinced researchers to consider AR/VR by promoting virtual process engineering ( Li, 2015 Ge et al., 2019). In that sense, a virtual environment with CFD simulations could yield remedies for this primitive context. The integration of interactive CFD simulations in AR/VR reveals supportive features such as advanced visualizations, interactivity, attractiveness of digital media and so forth. Augmented reality (AR) and virtual reality (VR) have been getting prevalent in society today including research and education ( Suh and Prophet, 2018). However, the educational implementation of this tool is still directly made with engineering software which has a primitive educational context, thereby preventing students to understand challenging concepts. Multiphysics CFD simulations, one of the most applied computer-assisted process engineering (CAPE) tools, have been a maturing method increasing comprehension of engineering design and analysis. Serkan Solmaz, Tom Van Gerven, in Computer Aided Chemical Engineering, 2020 1 Introduction They share the common approach that discretizes the Navier-Stokes equations into a system of algebraic equations. There are other kinds of numerical methods, for example, the spectral method and the spectral element method, which are often used in CFD. This chapter presents the basics of the finite-difference and finite-element methods and their applications in CFD. If it is used correctly, it can provide useful information cheaply and quickly. ![]() CFD is merely a tool for analyzing fluid-flow problems. Different techniques are available for this conversion. The key to various numerical methods is to convert the partial different equations that govern a physical phenomenon into a system of algebraic equations. The most common sources of error are mentioned in the chapter. Because many potential sources of error may be involved, one has to be very careful when interpreting the results produced by CFD techniques. CFD has increased in importance and in accuracy however, its predictions are never completely exact. Computational fluid dynamics (CFD) is a science that, with the help of digital computers, produces quantitative predictions of fluid-flow phenomena based on the conservation laws (conservation of mass, momentum, and energy) governing fluid motion. This chapter focuses on computational fluid dynamics. Hu, in Fluid Mechanics (Fifth Edition), 2012 Publisher Summary ![]()
0 Comments
Read More
Leave a Reply. |