![]() AcuSolve results are compared with experimental results adapted from Hayes and others (1989). In this application, AcuSolve is used to simulate laminar flow through a channel with two outlets forming a T-junction. The close agreement of AcuSolve results with experimental data validates the ability of AcuSolve to model cases containing enclosed cavities with flow induced by rotating walls. In this application, AcuSolve is used to simulate the flow of air in an enclosed cylindrical cavity with a rotating top and a fixed bottom.ĪcuSolve results are compared with experimental data adapted from Michelsen (1986). ![]() ![]() The close agreement of AcuSolve results with analytical results validates the ability of AcuSolve to model cases with species transport. AcuSolve results are compared with analytical results as described in Kays and Crawford (1993). In this application, AcuSolve is used to simulate the transport of a passive scalar species in a fully developed laminar flow. Laminar Flow Through a Pipe with Species Transport.The close agreement of AcuSolve results with analytical results validates the ability of AcuSolve to model cases with imposed pressure gradients and viscous heating. AcuSolve results are compared with analytical results described in White (1991). Pressure gradient and fixed temperature on the walls. In this application, AcuSolve is used to simulate the flow of a highly viscous fluid between a moving and a stationary plate with an imposed Laminar Couette Flow with Imposed Pressure Gradient and Heated Walls.The close agreement of AcuSolve results with analytical results validates the ability of AcuSolve to model cases with imposed pressure gradients. In this application, AcuSolve is used to simulate the viscous flow of water between a moving and a stationary plate with an imposed pressure Laminar Couette Flow with Imposed Pressure Gradient.The close agreement of AcuSolve results with analytical results validates the ability of AcuSolve to model cases with flow and imposed heat flux. The AcuSolve results are compared with analytical results for pressure drop as described in White (1991), and with temperatureĬhanges as described in Incropera and DeWitt (1981). In this application, AcuSolve is used to simulate the flow of mercury through a heated pipe. Laminar Flow Through a Pipe With Imposed Heat Flux.The close agreement of AcuSolve results with analytical results validates the ability of AcuSolve to maintain a continuous velocity across a non-conformal guide surface interface. AcuSolve results are compared with analytical results as described in White (1991). The outer cylinder is held stationary while the inner cylinder rotates with a constant speed. In this application, AcuSolve is used to simulate the flow of air between concentric cylinders that is initiated by the rotation of the solid Circumferential Flow in a Cylinder Induced by a Rotating Solid.This section includes validation cases that do not require a turbulence model to be used. This section includes validation cases that consider steady state flow simulations. This section includes validation cases containing flow conditions that will cause turbulence to form, requiring that Introduction of background knowledge regarding flow physics and CFD as well as detailed information about the use of AcuSolve and what specific options do.Ĭollection of AcuSolve simulation cases for which results are compared against analytical or experimental results to demonstrate the accuracy AcuSolve is a leading general purpose CFD solver that is capable of solving the most demanding industrial and scientific applications.ĭiscover AcuSolve functionality with interactive tutorials.
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