im体育APP 数字工程’s modeling and 模拟 teams are based in four offices worldwide. We recruit the very best from research teams, 学术机构, 和im体育平台app下载, ensuring that we balance experienced practitioners with recent graduates from the world’s leading universities.
The tools we use range from in-house expert assessments to the very latest in computational analysis techniques. We have access to almost every major engineering software tool, as well as our own software experts for developing bespoke applications.
Our specialists comprise many technical disciplines from structural, material and mechanical engineering to fluid flow and heat transfer as well as 电磁学 and electrical systems. We commonly combine our skills to deliver multi-physics challenges such as fluid-structure interaction and thermal management of electrical systems.
Whether developing a new capability, solving a new challenge or needing support to existing capabilities, contact us to discuss how we can support you.
建模与仿真 Capabilities
Computational Fluid Dynamics (CFD)
We use Computational Fluid Dynamics (CFD) to simulate and analyze complex problems involving fluid-fluid, 流固, and fluid-气体 interactions.
Discrete im体育APP Method (DEM)
Our Discrete im体育APP Method (DEM) services deliver innovative solutions that have helped companies across a wide range of industries.
Electromagnetic 建模与仿真
Our electromagnetic modeling and 模拟 services offer unparalleled precision and insight, empowering your projects to meet and exceed compliance and performance standards. With a focus on innovative solutions and expert support, we ensure your designs achieve their full potential.
What is modeling and 模拟 in engineering?
We utilize modeling and 模拟 to digitalize complex challenges and capture meaningful data that support your operations. We offer digital solutions throughout product lifecycles and across all industries, solving the most complex problems quickly and efficiently.
In the early stages of product development, lifecycles rely on a rigorous assessment of potential design concepts to optimize a solution before working up a detailed design. Much of the assessment process can be completed digitally through virtual prototyping and virtual testing.
Advances in physics-based predictive technologies allow modeling and 模拟 of a wide range of physical processes including structural dynamics, 流体力学, 电磁学, 化学, and a wide range of multi-physics techniques where multiple physical processes occur.
案例研究
im体育APP 数字工程 utilize modeling, 模拟, 数据科学, and other digital solutions to help our customers solve complex problems.
Read examples of our work in the following sectors: aerospace, built environment, energy, marine, mining, pharma, renewables, transport, utilities.
We add value to your operations and we are always eager to support your next challenge.
READ OUR CASE STUDIES TODAY相关页面
Case Study: Hydrodynamic 建模 Optimizes Power and Performance
Learn how im体育APP 数字工程 used a hydrodynamic model to improve the power and performance of an underwater Remotely Operated Vehicle (ROV).
Case Study: Improving Cleaning Performance Through CFD 模拟
Read how we simulated a lamella clarifiers cleaning system (at a water treatment plant) with computational fluid dynamics (CFD) to optimize its performance.
数字孪生解决方案
We combine data and science-based approaches to build digital twins of your product or process that improve your designs and operational performance.
