Explore Ricardo WAVE 2019.1
Elevate your engineering simulations and analyses with Ricardo WAVE 2019.1, a cutting-edge software solution designed to revolutionize the field of engine and vehicle acoustics. Whether you’re an automotive engineer, designer, or researcher, WAVE 2019.1 offers a comprehensive suite of tools to simulate and optimize acoustics, intake and exhaust systems, and overall powertrain performance. This software provides a sophisticated platform for engineers to delve into the intricate details of fluid dynamics, combustion, and structural acoustics, enabling the development of more efficient and quieter engines. With its intuitive interface and advanced capabilities, Ricardo WAVE 2019.1 stands at the forefront of automotive engineering, offering unparalleled insights into the complex world of acoustics and powertrain dynamics.
Ricardo WAVE 2019.1 boasts a multitude of features to cater to the diverse needs of automotive professionals. From simulating combustion processes to predicting noise and vibration levels in powertrain components, this software is a virtual laboratory for comprehensive engineering analyses. WAVE 2019.1 facilitates the optimization of intake and exhaust systems, helping engineers fine-tune the performance of internal combustion engines. With its ability to integrate seamlessly into existing workflows, this software empowers automotive engineers to make informed decisions, reduce development time, and enhance the overall efficiency and performance of powertrains. Dive into the future of automotive engineering with Ricardo WAVE 2019.1, where precision meets innovation for unparalleled insights into powertrain acoustics and dynamics.
1. Combustion Analysis
Simulate combustion processes with high precision, allowing engineers to analyze combustion efficiency and optimize performance.
2. Intake and Exhaust System Optimization
Optimize the design of intake and exhaust systems to enhance engine performance, efficiency, and acoustics.
3. Structural Acoustics
Predict and analyze noise and vibration levels in powertrain components, aiding in the development of quieter and more refined engines.
4. Fluid Dynamics Simulation
Explore fluid dynamics within powertrain components, gaining insights into airflow patterns and pressure distribution for better design decisions.
5. 1D and 3D Modeling
Utilize both 1D and 3D modeling approaches for a comprehensive understanding of powertrain dynamics and acoustics.
6. Integration with CAD Software
Seamlessly integrate with CAD software for efficient collaboration and the transfer of design data into the simulation environment.
7. Heat Transfer Analysis
Analyze heat transfer within the powertrain components, ensuring optimal thermal management for improved efficiency and durability.
8. Real-Time Visualization
Benefit from real-time visualization of simulation results, facilitating quick and informed decision-making during the design process.
Windows 10 (64-bit)
Quad-core Intel Core i7 processor or equivalent
16GB RAM or more
Graphics card with OpenGL support and a resolution of 1920×1080 or higher
50GB of free space or more
Stable internet connection for software activation and update.