{"id":20122,"date":"2013-10-02T09:44:26","date_gmt":"2013-10-02T13:44:26","guid":{"rendered":"https:\/\/blogs.solidworks.com\/solidworksblog\/?p=20122"},"modified":"2013-11-21T10:15:25","modified_gmt":"2013-11-21T15:15:25","slug":"design-scenarios-for-fluid-flow-in-solidworks-flow-simulation","status":"publish","type":"post","link":"https:\/\/blogs.solidworks.com\/solidworksblog\/2013\/10\/design-scenarios-for-fluid-flow-in-solidworks-flow-simulation.html","title":{"rendered":"Design scenarios for fluid flow in SolidWorks Flow Simulation"},"content":{"rendered":"

A known value of CAD integrated simulation is to run “what if” scenarios as early as possible to find the best design and\/or the design which fits your criteria. In SolidWorks Simulation, our users know well the tool called “Design Study.”<\/p>\n

Did you know that the same method is available for CFD with SolidWorks Flow Simulation? The tool is called “Parametric study.” This is an incredible productive tool which enables you to perform a set of CFD calculations with variation of CAD geometry and CFD conditions.<\/p>\n

The parametric study exists in two flavors:<\/p>\n

\"Parametric_flavor\"<\/a><\/p>\n

Goal Optimization<\/i> allows you to vary only by one selected variable parameter in order to obtain a specific parameter value, at which the selected goal of interest will be equal to the specified target value. For example, you can use the goal optimization to obtain the position of a valve\u2019s piston so that the force acting on the piston gets balanced to the resistance force of the valve spring. Here, the force acting on the piston should be specified as the force goal and the target parameter is the spring\u2019s resistance force specified as a function of dimension. Another example would be to determine the optimal bore diameter to achieve a certain pressure drop.<\/p>\n

\"Flow_parametric_New\"<\/a><\/p>\n

What If<\/i> allows you to vary a set of<\/span> selected variable parameters (such as model dimensions, boundary condition parameters, initial mesh settings. etc.) in order to analyze the selected flow parameters (defined as goals). For example, you can vary the position of internal fans, the inlet air flow velocity and track the maximum temperature value of a critical component for these variations. The beauty is that it only takes you 5 minutes to define dozens of CFD scenarios!<\/p>\n

Based on a study defined as a baseline, to define a \u201cWhat If\u201d study you just need to<\/p>\n