The Design – Y Axis Rotor Domain Mixing Tank Concept Using Sliding Mesh Method | ANSYS Fluent
This simulation is about a Y Axis Rotor Domain Mixing Tank Concept Using Sliding Mesh Method via ANSYS Fluent software. We perform this CFD project and investigate it by CFD analysis.
Mixing Tanks can be used for blending powders and granulates.
Vacuum Mixer Tank
The Vacuum Mixer Tank have ability of stiring and storage of liquid or sticky paste material. It is able to bear pressure. The mixer tank is flexible in application. It can be applied in usage of sterilization and mixing additive of material. It is agility in using, with vacuum suck material feeding device.
This mixing equipment can be used for all kinds of ranges, especially in food and chemical industry such as paste mixing, drick mixing, medicine liquid mixing etc food industries and dope, gluewater etc chemial industry. The mixing tank can be used to mix and blend many kinds of material, such as coating and others in the field of chemical industry.
Sliding Mesh Method
Sliding meshes are a powerful method to treat deformed domains in computational fluid dynamics, where different parts of the domain are in relative motion.
This analysis has tried to simulate and analyze the modeling of a Y Axis Rotor Domain Mixing Tank Concept Using Sliding Mesh Method using ANSYS Fluent software.
Geometry & Grid
The geometry required for this analysis was generated by Ansys Design Modeler software. The meshing required for this analysis was also generated by Ansys Meshing software. The mesh type used in this analysis is unstructured. The total number of volume properties for geometry is 5,1118e+006 mm³.
K-epsilon (2 equation) model has been used for fluid flow inside the design modeler and the simulation considers air phenomena. So, Case will be initialized with mixed pressure are solved.
The momentum input for this geometry is considered as Moving Wall in Wall Motion, at a constant speed of rotational velocity is 225 rad/s. The momentum of the shear condition is also considered as No Slip. The motion of the design modeler is defined as Relative to Adjacent Cell Zone for the circular outer domain boundary condition.
Discretization of Equations
According to the type of flow, the SIMPLE algorithm is used to discretize the Pressure-Velocity Coupling of the solution method. The momentum equation has been discretized in the Second Order Upwind.
The Design Services
We also accept all CFD projects using ANSYS Fluent and ANSYS CFX. Our workshop has gathered experts in different engineering fields so as to ensure the quality of CFD simulations. One of our objectives is to boost the use of powerful computational fluid dynamics methods and also teach the engineers and those who seek professional knowledge in CFD.
ِDoing CFD projects will be faster and easier with our services. Call us for training in CFD applications and CFD packages. Our professional CFD engineers offer you professional consultation and technical supports for your academic CFD projects and industrial CFD projects. We offer you CFD learning, CFD project by ANSYS Fluent and ANSYS CFX, CFD consulting by ANSYS Fluent and ANSYS CFX, CFD service by ANSYS Fluent and ANSYS CFX, ANSYS Fluent and ANSYS CFX project, ANSYS Fluent and ANSYS CFX thesis, ANSYS Fluent and ANSYS CFX simulation, ANSYS Fluent and ANSYS CFX paper regeneration, ANSYS Fluent and ANSYS CFX academic project, ANSYS Fluent and ANSYS CFX industrial project, ANSYS Fluent, and ANSYS CFX research project, and low CFD Price. Moreover, we have years of experience in coordinating CFD projects. Therefore, we are ready to perform your CFD simulations in different engineering fields.