Solve Complex Energy Engineering Challenges with Ansys Simulation
Energy teams are under pressure to move faster without compromising reliability, efficiency, or performance. From power generation and grid infrastructure to renewables and electrification, Ansys simulation helps engineers reduce risk, cut testing costs, and make smarter decisions earlier.
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Where We've Helped
Still trying to decide?
Here are our most frequently asked questions.
What kinds of energy challenges can simulation actually help solve?
Simulation is used to tackle the issues that slow projects down or introduce risk—thermal hotspots, flow instability, fatigue, EMI/EMC issues, and equipment performance under real operating conditions. Instead of reacting to problems late, teams can identify and solve them early, when changes are faster and less costly.
Where does simulation make the biggest impact in the energy lifecycle?
Simulation delivers the most value early in design, where it helps guide decisions and avoid costly rework—but it’s just as valuable for validating performance, troubleshooting issues, and improving existing systems already in operation.
How do we know if simulation will actually reduce our testing and development time?
Most teams see the impact quickly. By validating designs virtually, you can reduce the number of physical prototypes, shorten iteration cycles, and uncover issues before they delay testing or deployment.
We already do testing—why add simulation?
Testing shows you what happened. Simulation helps you understand why—and what to change before you build again. Together, they give you a more complete picture and help you move faster with fewer surprises.
Our systems are complex—can simulation handle multiphysics interactions?
Yes. Ansys is designed to model interactions between fluid, thermal, structural, and electromagnetic behavior, so you can evaluate how your system actually performs under real conditions—not just in isolated analyses.
How steep is the learning curve for getting started?
Getting started is more straightforward than most teams expect—especially with the right support. With guided onboarding and practical workflows, teams can begin applying simulation to real projects quickly and build capability over time.
What does working with SimuTech Group actually look like?
We work alongside your team to apply simulation to real engineering challenges—helping you choose the right tools, accelerate adoption, and get meaningful results faster. Whether you’re just getting started or looking to go deeper, we meet you where you are.
We’re grateful for their assistance in solving what is a large-scale, complex problem.
Peter O’Regan, PhD,
Electromagnetics Engineer at MagLev Aero
With only a basic outline and one example of how previous systems were done, my engineer was able to complete the job quickly and provide several possible system designs that met my specifications. These system designs came with comparisons as well as a final system design best suited for our design specifications. The final design delivered was detailed enough for us to begin developing a prototype production through an external manufacturer.
Ahmad Azim, Laser Engineer at IRGLARE
Building advanced software-defined radios involves a lot of hardware design, especially of PCBs and antennas. Pi-Radio has been very lucy to work with Ansys and SimuTech Group through the Ansys Startup Program. Through this program, Pi-Radio has had access to software tools like HFSS, which has been invaluable in us building the products that we do.
Aditya Dhananjay, Co-Founder & CEO at Pi-Radio
General Fusion
Louis Lacasse, Lead Engineer at INFLO Technique