In accordance with our Quality Policy, COMSOL maintains a library of hundreds of documented model examples that are regularly tested against the latest version of the COMSOL Multiphysics® software, including benchmark problems from ASME and NAFEMS, as well as TEAM problems.
Our Verification and Validation (V&V) test suite provides consistently accurate solutions that are compared against analytical results and established benchmark data. The documented models below are part of the COMSOL Multiphysics® software’s built-in Application Libraries. They include reference values and sources for a wide range of benchmarks, as well as step-by-step instructions to reproduce the expected results on your own computer. You can use these models not only to document your software quality assurance (SQA) and numerical code verification (NCV) efforts, but also as part of an in-house training program.
The Ahmed body represents a simplified, ground vehicle geometry of a bluff body type. Its shape is simple enough to allow for accurate flow simulation but retains some important practical features relevant to automobile bodies. This model describes how to calculate the turbulent flow ... 詳細を見る
This example demonstrates how to set up the classical external-flow problem of solving for the high-speed, compressible, turbulent flow over the ONERA-M6 wing. The problem involves finding a steady-state solution of the flow field around the 3D, swept wing geometry, immersed in a ... 詳細を見る
Tonpilz トランスデューサーは, 比較的低周波で高出力の音響放射に使用されます. これは, ソナー用途で広く使用されているトランスデューサー構成の1つです. このトランスデューサーは, 中央のボルトで接続されたヘッドマスとテールマスの間に積層された圧電セラミックリングで構成されています. この例では, ボルトの事前応力の影響を組み込む方法を示します. ボルトの形状は部品ライブラリからインポートされます. 周波数応答は, 変形, 応力, 放射電力, 音圧レベル, 送信電圧応答 (TVR) 曲線, 音波ビームの指向性指数 (DI) ... 詳細を見る
この例は, 指定された外部 (周囲) 温度への対流を含む 2D 定常熱解析を示しています. これはベンチマーク例として示されています. 目標位置のベンチマーク結果は 18.25 C です. COMSOL Multiphysics モデルでは, 556 要素のデフォルトメッシュを使用して, 温度は 18.28 C となります. その後, 均一なメッシュ細分化を繰り返していくと, 温度は 18.26 C と18.25 C となり, ベンチマーク結果に収束します. 詳細を見る
The present example simulates the turbulent flow over a 3D hill geometry using the Large Eddy Simulation (LES) interface with synthetic turbulence at the inlet boundary. 詳細を見る
A classic benchmark example in computational electromagnetics is to find the resonant frequency and Q-factor of a cavity with lossy walls. Here, models of rectangular, cylindrical, and spherical cavities are shown to be in agreement with analytic solutions. 詳細を見る
A slope stability analysis is performed and the Factor of Safety of the dam embankment is calculated by using the Shear Strength Reduction Technique. The pore pressure in the soil is computed based on Darcy’s law, and the Mohr–Coulomb constitutive model is used to describe the ... 詳細を見る
Perforates are plates with a distribution of small perforations or holes. They are used in muffler systems, sound absorbing panels, and in many other places as liners, where it is important to control attenuation precisely. As the perforations become smaller and smaller, viscous and ... 詳細を見る
このモデル例では, 高温 PEMFC における反応物と水の輸送について考察します. このモデルには, 流路, ガス拡散層 (GDL), 多孔質電極における質量および運動量輸送現象, ならびに GDL, 多孔質電極, 高分子膜における電気化学電流が含まれています. 詳細を見る
In this example, the micromechanical properties of a piezoelectric fiber composite are studied. The homogenized electromechanical properties of the composite are derived from the individual microscopic properties of matrix and fiber. 詳細を見る
