Simulation
Providing Everything You Need
Fluid analysis
(CFD)
HyperSol's fluid dynamics simulation service provides precise analysis across a wide range of flight conditions, from subsonic to supersonic.
By applying the latest turbulence models (RANS, LES, Hybrid, etc.) and high-accuracy numerical techniques, even complex flow phenomena can be reliably reproduced.
Additionally, by utilizing self-optimized algorithms and parallel computing techniques, it maximizes computational efficiency while ensuring high accuracy consistent with experimental data.
This enables researchers and engineers to perform faster design validation and supports innovative aerospace and defense research and development.
Hypersonic flow analysis
(Hypersonic)
HyperSol's hypersonic flow analysis service precisely reproduces aerodynamic phenomena in extreme environments.
It faithfully simulates the real environment of a hypersonic vehicle by comprehensively considering chemical reactions (non-equilibrium gas dynamics), high-temperature gas radiation heat transfer, and combined conduction and convection heat transfer effects.
In addition, by applying our own developed precision shock wave capture technique and high-order accuracy numerical technique, we can analyze difficult flow characteristics such as shock wave/boundary layer interaction with high reliability.
This will enable researchers and industry to quickly and accurately predict thermal and fluid behavior in extreme environments, providing key data needed to develop next-generation hypersonic aerospace and defense systems.
Fluid-structure coupled analysis
(FSI)
Hypersol provides an integrated analysis service that simultaneously considers aerodynamic loads and structural response through fluid-structure interaction (FSI).
Calculate the pressure and force exerted on structures by flows under various conditions from subsonic to hypersonic speeds.
We precisely analyze the resulting deformation, vibration, and fatigue response.
This enables simulations close to actual operating environments, supporting performance optimization and safety verification from the design stage.