AxSTREAM EDU
AxSTREAM® EDU, the educational package of AxSTREAM®, comes in a variety of versions and provides students and faculty with a state-of-the-art turbomachinery design and multidisciplinary optimization software suite at minimal expense. The software can be used to enrich the overall student educational experience by giving them the opportunity to work with real-world design tools. AxSTREAM® EDU is also the program of choice for educational institutions that need to focus more time on teaching turbomachinery design and multidisciplinary optimization principles and less time worrying about how to construct a course using separate engineering systems and platforms.
AxSTREAM – Educational Version
These programs constitute a “learn-as-you-go” mentality that aids students in understanding the overall design and performance principles of turbomachinery through the same fully- integrated AxSTREAM® commercial program used by engineers that have graduated college and are working in a professional setting. The educational version is designed to be easily integrated into any turbomachinery engineering program’s core curriculum.
With the AxSTREAM® educational version, students will be able to:
- Design a flow path based on given overall application requirements
- Perform design optimization encompassing 1D and 2D direct problem computation
- Generate cascade profiles that easily relate to aerodynamic theory
- Search for the optimal twist law of classic and long blades
- Perform full 3D blade design with a custom twist, lean and sweep
- Perform calculations of 2D and 3D analysis in blade-to-blade channel as well as finite element analysis on blades and attachments
- Perform rotordynamics analysis and calculate mechanical and hydrodynamic characteristics of various bearing types.
- Engage in secondary flows and cooling system simulation for a wide range of applications
This powerful software permits the students to both validate course theory and gain practical skills. It also exposes students to the steps of the real flow path design process and experience. The convenient and intelligent interface allows the students to test all the “what if” variants and provides them with the ability to check thousands of cases in minutes to identify suitable sets of design parameters for each stage of the design process.
“We are pleased to announce our agreement to employ AxSTREAM for teaching Gas Turbines and Turbomachinery. The instruction of 3D aspects of design with the sole aid of the blackboard and projector is a vexing endeavor, while AxSTREAM allows ready visualization and modification of spanwise shape distribution. We think that students will gain a much better understanding of 3D considerations using the visual and analytical tools provided by SoftInWay.”
-The Pennsylvania State University
Key Benefits:
For the faculty and staff
- Unique conceptual user-friendly turbomachinery design and multidisciplinary optimization tool which is easy to integrate into a classroom environment
- Fast learning curve
- Minimal investment – discounts for multiple seats
- Runs on standard PC or laptop with minimal requirements
- Easy to implement into curriculum Increases productivity and student interest level
For the student
- Easily learning based on “what if” case scenarios
- Dynamic learning environment with intuitive Windows-based interface
- Portability – works on any standalone PC or laptop.
- Facilitates highly valued, “marketable” design skills
Resources:
Students and faculty who are part of our University partnership program also receive access to the following resources:
- Online self-paced video courses (fundamentals and software) and webinars through SoftInWay Turbomachinery University
- Software tutorials and help files through SoftInWay’s Resource center and Wiki
- Student forum – enables students to easily communicate with one another and help each other with software challenges or design tasks.
How to Order:
AxSTREAM EDU is available on a yearly or quarterly license version.
To purchase AxSTREAM EDU, please contact our sales department.
AxSTREAM EDU (Flow Path) Limitations
- Limited number of spanwise stations for 2D-calculations and blade design (up to 5 for axial machines and up to 3 for radial machines)
- Limited number of profile points (up to 120)
- 1 project per session
- Limited number of stages in machine (up to 5 for both axial and radial machines) for design and analysis
- Ideal gas with fixed R and k (air) usage only
- Features such as ATLAS, blade geometry export, and profile optimization by minimal loss are inaccessible.
AxSTREAM EDU (Rotor Dynamics) Limitations
- Limited lateral RotorDynamics analysis (up to axial 8 sections)
- Limited torsional RotorDynamics analysis (up to 1 rotor)
- Limited journal plain cylindrical bearing calculations (up to 2 pockets)
- Limited tilting pad bearing calculations (up to 3 lobes with no pockets)
- Limited thrust tilting pad bearing calculations (up to 5 lobes with no pockets)
- Limited aerodynamic cross-coupling calculations (up to 2 stages)
- Calculations on fixed pad bearings, thrust fixed pad bearings, rolling element bearings, squeeze film dampers, and liquid annular seals are inaccessible.
AxSTREAM EDU (System Simulation) Limitations
- Limited components for modeling of thermal-fluid systems (up to 20 components)
- Use of working fluids in AxSTREAM System Simulation are limited to ideal gas with non-customizable properties (air).
- Limited number of cycle components avaiable for aerospace applications (up to 10 components)
Basic Computer Requirements to Run AxSTREAM
- Processor: Intel Core i3-8100/AMD Ryzen 3 2200G
- RAM: 4GB of RAM memory
- Operating System: Windows 10, 64-bit
- Graphics card: Integrated graphics card
- NET Framework: 4.8
Please note, SoftInWay no longer supports AxSTREAM LITE