Michelwatt

  Solar water desalination has emerged as a viable solution in a world where water is becoming increasingly scarce, offering an eco-friendly and sustainable means of producing clean water. In order to have optimum design and functioning of these systems, Ansys Fluent CFD has become a mandatory simulation tool. This blog has discussed an in-depth CFD simulation of a solar still using Ansys Fluent v14.5, providing an ideal learning experience for students, researchers, and engineers pursuing online training programs or courses in Ansys Fluent CFD. Understanding the Study and Its Relevance This simulation study was aimed at designing a feasible, continuous, and very productive solar water desalination unit. It was designed in such a way that the water had a high yield during the day, and the whole simulation was done in the ANSYS Fluent workbench. The project incorporated geometry modelling, meshing, setting up the simulation, and interpreting the results —the three components that f...

This guide is just what you need in case you are a CFD (Computational Fluid Dynamics) beginner, and you would like to know how to operate ANSYS Fluent . You are either looking at an online course on CFD, are about to enrol in a training course, or are completely new to the world of simulations, but the meshing process is an important step to learn. This blog covers the fundamentals of meshing in ANSYS Fluent, ideal for beginners who want to embark on their meshing journey. Step 1: Identify the Domain You Will Model Before starting the meshing process, you must decide which part of the system you want to simulate. This is called the computational domain. Ask yourself: Where will the simulation start and end? Do you have data or boundary conditions for those areas? Can the model be simplified into 2D or axisymmetric? Step 2: Create a Solid Model of the Domain Now that you've selected the domain, it's time to build a solid model of the fluid area: You can use existing CAD models. ...

  PLAXIS Software: PLAXIS is a finite element analysis software for geotechnical applications in which soil models are used to simulate soil behavior. The PLAXIS code and its soil models have been developed with great care. It is used for multiple geotechnical applications from retaining walls, slope stability, Dam construction, and tunneling also. PLAXIS has 2 software types with PLAXIS 2D and 3D. According to the project requirements engineers use this software to generate the desired outcomes of work. Benefits of PLAXIS Software: For several reasons, PLAXIS software is essential in the geotechnical engineering field. Here are some important benefits highlighting its significance: Soil Structural Interactions: You can simulate the behaviors of the soil structural interactions for structures like Retaining walls, Slope stability, Tunnels, and Dams for the surrounding soils in PLAXIS Software. Foundation Designs: Learn and Practice to perform the shallow and deep foundation desig...

  Plaxis Software Plaxis Software is a Finite Element Software tool designed for geotechnical engineering/geology for the analysis of deformation, stability, and groundwater flow in soil and rock. The first version of Plaxis software was launched in 1980 and was developed by a team of researchers at Delft University of Technology in the Netherlands. The purpose of this software is to solve the problems related to deformation Analysis, Stability Analysis, Groundwater Flow, and Soil-Structure Interaction. Plaxis Software Is Used By Here are some of the groups, companies, or organizations that use Plaxis software: Geotechnical Students – Geotechnical Engineering Students from MTech, PhDs, use the PLAXIS software for their learning and project work about soil, rock mechanics, soil behavior, slope stability, new materials, and foundation-level construction techniques. Professional – Civil Engineering Professionals working on PLAXIS 2D/3D software for foundation design, earthwork analy...

Engineers can individualize their work in ABAQUS with subroutines called UMAT and VUMAT. These tools allow users to describe advanced behavior of materials that is not included in the basic material libraries of ABAQUS. Knowing how to apply subroutines is crucial for engineers, and now many of them prefer to acquire this knowledge with a proper online Abaqus UMAT course. What is the Meaning of UMAT and VUMAT? You can use the UMAT module in ABAQUS/Standard to design materials under static and low-speed dynamic situations. ABAQUS/Explicit makes use of VUMAT to solve very fast-paced simulations. All the programs are written in Fortran, which is the usual language for coding finite element analysis applications. During every analysis step, ABAQUS uses these routines to find out how the materials will respond according to the user’s settings. The way ABAQUS makes use of subroutines At the beginning of every increment in ABAQUS/Standard, subroutines such as UMAT are used twice. At first, we...