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Learn turbomachinery design and analysis with Axstream free edition



Axstream free download: A comprehensive guide




If you are interested in turbomachinery design and optimization, you might have heard of Axstream, a software suite that can help you with various aspects of this field. But what is Axstream exactly, and how can you get it for free or at a low cost? In this article, we will answer these questions and provide you with a comprehensive guide on how to download and use Axstream for your turbomachinery projects.




Axstream Free Downloadl



What is Axstream and why do you need it?




Axstream is a software suite developed by SoftInWay, a company that specializes in turbomachinery design technology. Axstream can help you design, analyze, and optimize various types of turbomachines, such as axial turbines, radial compressors, centrifugal pumps, fans, blowers, etc. Axstream can also help you with other related tasks, such as rotordynamics analysis, secondary flows and cooling system simulation, blade profiling and 3D blade design, etc.


Axstream is a turbomachinery design and optimization software suite




Axstream consists of several modules that cover different stages of the turbomachinery design process. These modules are:


  • AxSTREAM Preliminary Design: This module allows you to generate thousands of flow path variants based on your given specifications and constraints. You can then select the best candidates for further analysis and optimization.



  • AxSTREAM Solver: This module allows you to perform 1D/2D/3D calculations of the flow path performance, including losses, efficiency, pressure ratio, etc. You can also perform multipoint calculations to generate performance maps and off-design conditions.



  • AxSTREAM Profiling: This module allows you to create blade profiles based on different methods, such as inverse design, direct design, parametric design, etc. You can also optimize the blade profiles for aerodynamic performance and structural integrity.



  • AxSTREAM 3D Blade Design: This module allows you to create 3D blade geometry with custom twist, lean, sweep, thickness distribution, etc. You can also perform 3D CFD analysis and structural FEA analysis on the blades.



  • AxSTREAM RotorDynamics: This module allows you to perform rotordynamics analysis of the turbomachine rotor-bearing system. You can calculate critical speeds, natural frequencies, mode shapes, stability margins, etc. You can also simulate different types of bearings, such as ball bearings, journal bearings, tilting pad bearings, etc.



  • AxSTREAM Secondary Flows & Cooling System: This module allows you to simulate secondary flows and cooling systems in turbomachines. You can model different types of cooling schemes, such as film cooling, imping ement cooling, transpiration cooling, etc. You can also calculate the heat transfer coefficients, cooling effectiveness, temperature distribution, etc.



  • AxSTREAM Optimization: This module allows you to perform multidisciplinary optimization of the turbomachine flow path and blade geometry. You can use different optimization methods, such as genetic algorithm, gradient-based method, surrogate-based method, etc. You can also define different objective functions and constraints for the optimization problem.



As you can see, Axstream is a comprehensive software suite that can handle any turbomachinery design challenge. Whether you are designing a new turbomachine from scratch or improving an existing one, Axstream can help you achieve your goals.


Axstream can help you design, analyze, and optimize various types of turbomachines




Axstream is not limited to a specific type of turbomachine. You can use it to design, analyze, and optimize any kind of axial, radial, or mixed-flow turbomachine, such as:


  • Turbines: gas turbines, steam turbines, hydro turbines, wind turbines, etc.



  • Compressors: axial compressors, centrifugal compressors, radial compressors, etc.



  • Pumps: centrifugal pumps, axial pumps, mixed-flow pumps, etc.



  • Fans: axial fans, centrifugal fans, radial fans, etc.



  • Blowers: axial blowers, centrifugal blowers, radial blowers, etc.



Axstream can also handle different types of fluids and thermodynamic cycles. You can use it to simulate compressible or incompressible flows, ideal or real gases, single-phase or multiphase flows, etc. You can also use it to model different cycles, such as Brayton cycle, Rankine cycle, Organic Rankine cycle, etc.


Axstream has different versions and modules for different applications and users




Axstream is a flexible and customizable software suite that can adapt to different applications and users. Depending on your needs and budget, you can choose from different versions and modules of Axstream. These are:


  • AxSTREAM Professional: This is the full version of Axstream that includes all the modules and features mentioned above. This version is suitable for professional engineers and researchers who need the most advanced and comprehensive tools for turbomachinery design and optimization.



  • AxSTREAM Enterprise: This is a simplified version of Axstream that includes only the essential modules and features for turbomachinery design and analysis. This version is suitable for small and medium-sized enterprises that need a cost-effective and easy-to-use solution for turbomachinery design and analysis.



  • AxSTREAM EDU: This is a discounted version of Axstream that includes all the modules and features of AxSTREAM Professional. This version is suitable for academic institutions that want to use Axstream for teaching and research purposes.



  • AxSTREAM Lite: This is a free version of Axstream that includes only the preliminary design and mean-line analysis modules. This version is suitable for students and educators who want to learn the basics of turbomachinery design and analysis.



In addition to these versions, you can also purchase individual modules or add-ons of Axstream to enhance your capabilities. For example, you can buy the AxSTREAM ION module that allows you to integrate Axstream with other software tools or platforms. You can also buy the AxSTREAM NET module that allows you to simulate secondary flow networks in turbomachines.


How to get Axstream for free?




If you are wondering how to get Axstream for free or at a low cost, you have two options: AxSTREAM Lite and AxSTREAM EDU. These are the versions of Axstream that are designed for students and educators who want to learn or teach turbomachinery design and analysis. Let's take a closer look at these options.


AxSTREAM Lite: A free version for students and educators




AxSTREAM Lite is a free version of Axstream that you can download and use for educational purposes. It includes only the preliminary design and mean-line analysis modules of Axstream. With these modules , you can perform the following tasks:


  • Create a preliminary design of an axial turbine based on your given specifications and constraints.



  • Perform a mean-line analysis of the turbine performance, including losses, efficiency, pressure ratio, etc.



  • Generate performance maps and off-design conditions for the turbine.



  • Export the turbine geometry and performance data to other software tools or platforms.



AxSTREAM Lite is a great way to learn the fundamentals of turbomachinery design and analysis. You can use it to understand the basic principles and methods of turbomachinery design, such as velocity triangles, degree of reaction, loading coefficient, flow coefficient, etc. You can also use it to explore different design options and trade-offs for your turbomachine project.


What is AxSTREAM Lite and what can it do?




AxSTREAM Lite is a free version of Axstream that includes only the preliminary design and mean-line analysis modules. It is a software tool that can help you design and analyze axial turbines for different applications, such as gas turbines, steam turbines, hydro turbines, etc. AxSTREAM Lite can help you with the following tasks:


TaskDescription


Preliminary designThis task allows you to generate thousands of flow path variants for your axial turbine based on your given specifications and constraints. You can specify parameters such as inlet and outlet pressure, mass flow rate, rotational speed, number of stages, etc. You can also define constraints such as maximum blade height, minimum blade angle, maximum Mach number, etc. AxSTREAM Lite will then create a database of feasible flow path variants that meet your requirements.


Mean-line analysisThis task allows you to perform 1D calculations of the flow path performance for each variant. You can calculate parameters such as losses, efficiency, pressure ratio, power output, etc. You can also perform multipoint calculations to generate performance maps and off-design conditions for each variant. AxSTREAM Lite will then rank the variants according to their performance and display them in a Pareto chart.


Geometry exportThis task allows you to export the geometry and performance data of the selected variant to other software tools or platforms. You can export the data in different formats, such as Excel, XML, IGES, STEP, etc. You can also export the data to other modules or add-ons of Axstream, such as AxSTREAM Solver, AxSTREAM Profiling, AxSTREAM 3D Blade Design, etc.


AxSTREAM Lite is a user-friendly and intuitive software tool that can help you design and analyze axial turbines in a fast and efficient way. You can use it to create realistic and optimal flow path designs for your turbomachine project.


How to download and install AxSTREAM Lite?




If you want to download and install AxSTREAM Lite on your computer, you need to follow these steps:


  • Visit the official website of SoftInWay at https://www.softinway.com/.



  • Go to the Products section and click on AxSTREAM Lite.



  • Fill out the registration form with your name, email address, country, affiliation, etc.



  • Check your email inbox for a confirmation email from SoftInWay. Click on the link in the email to activate your account.



  • Log in to your account on the SoftInWay website and go to the Downloads section.



  • Download the installation file for AxSTREAM Lite (AxSTREAM_Lite_Setup.exe).



  • Run the installation file and follow the instructions on the screen to install AxSTREAM Lite on your computer.



  • Launch AxSTREAM Lite from your desktop or start menu.



Congratulations! You have successfully downloaded and installed AxSTREAM Lite on your computer. You are now ready to use it for your turbomachinery design and analysis projects.


How to use AxSTREAM Lite for preliminary design and mean-line analysis of axial turbines?




If you want to use AxSTREAM Lite for preliminary design and mean-line analysis of axial turbines, you need to follow these steps:


  • Launch AxSTREAM Lite from your desktop or start menu.



  • Select New Project from the File menu or click on the New Project icon on the toolbar.



  • Enter a name for your project and select a folder to save it.



  • Select Turbine from the Machine Type drop-down list.



  • Select Preliminary Design from the Project Type drop-down list.



  • Select SI or English from the Units System drop-down list Click on the Next button to proceed to the next step.



  • Enter the required parameters for your axial turbine, such as inlet and outlet pressure, mass flow rate, rotational speed, number of stages, etc. You can also enter optional parameters, such as inlet and outlet temperature, fluid properties, stage loading, etc.



  • Click on the Calculate button to generate the preliminary design variants for your axial turbine. You can view the results in different tabs, such as Flow Path, Performance, Pareto Chart, etc.



  • Select the best variant for your axial turbine based on your criteria. You can use the Pareto Chart to compare the variants according to different performance parameters, such as efficiency, power output, pressure ratio, etc.



  • Click on the Next button to proceed to the next step.



  • Select Mean-line Analysis from the Project Type drop-down list.



  • Click on the Next button to proceed to the next step.



  • Enter the required parameters for your mean-line analysis, such as number of points, off-design conditions, losses models, etc. You can also enter optional parameters, such as blade angles, blade heights, blade numbers, etc.



  • Click on the Calculate button to perform the mean-line analysis for your axial turbine. You can view the results in different tabs, such as Performance Map, Off-design Performance, Stage Performance, etc.



  • Export the geometry and performance data of your axial turbine to other software tools or platforms. You can use the Export button on the toolbar or select Export from the File menu. You can choose from different formats, such as Excel, XML, IGES, STEP, etc. You can also export the data to other modules or add-ons of Axstream, such as AxSTREAM Solver, AxSTREAM Profiling, AxSTREAM 3D Blade Design, etc.



Congratulations! You have successfully used AxSTREAM Lite for preliminary design and mean-line analysis of axial turbines. You have learned how to create and optimize a realistic and optimal flow path design for your turbomachine project.


AxSTREAM EDU: A discounted version for academic institutions




AxSTREAM EDU is a discounted version of Axstream that includes all the modules and features of AxSTREAM Professional. It is a software tool that can help you design and optimize any type of turbomachine for any application. AxSTREAM EDU can help you with the following tasks:


TaskDescription


Preliminary designThis task allows you to generate thousands of flow path variants for your turbomachine based on your given specifications and constraints. You can specify parameters such as inlet and outlet pressure, mass flow rate, rotational speed, number of stages, etc. You can also define constraints such as maximum blade height, minimum blade angle, maximum Mach number, etc. AxSTREAM EDU will then create a database of feasible flow path variants that meet your requirements.


SolverThis task allows you to perform 1D/2D/3D calculations of the flow path performance for each variant. You can calculate parameters such as losses , efficiency, pressure ratio, power output, etc. You can also perform multipoint calculations to generate performance maps and off-design conditions for each variant. AxSTREAM EDU will then rank the variants according to their performance and display them in a Pareto chart.


ProfilingThis task allows you to create blade profiles for each stage of your turbomachine based on different methods, such as inverse design, direct design, parametric design, etc. You can also optimize the blade profiles for aerodynamic performance and structural integrity.


3D Blade DesignThis task allows you to create 3D blade geometry for each stage of your turbomachine with custom twist, lean, sweep, thickness distribution, etc. You can also perform 3D CFD analysis and structural FEA analysis on the blades.


RotorDynamicsThis task allows you to perform rotordynamics analysis of the turbomachine rotor-bearing system. You can calculate critical speeds, natural frequencies, mode shapes, stability margins, etc. You can also simulate different types of bearings, such as ball bearings, journal bearings, tilting pad bearings, etc.


Secondary Flows & Cooling SystemThis task allows you to simulate secondary flows and cooling systems in turbomachines. You can model different types of cooling schemes, such as film cooling, impingement cooling, transpiration cooling, etc. You can also calculate the heat transfer coefficients, cooling effectiveness, temperature distribution, etc.


OptimizationThis task allows you to perform multidisciplinary optimization of the turbomachine flow path and blade geometry. You can use different optimization methods, such as genetic algorithm, gradient-based method, surrogate-based method, etc. You can also define different objective functions and constraints for the optimization problem.


AxSTREAM EDU is a powerful and versatile software tool that can help you design and optimize any type of turbomachine for any application. You can use it to create realistic and optimal flow path designs for your turbomachine project.


What is AxSTREAM EDU and what can it do?




AxSTREAM EDU is a discounted version of Axstream that includes all the modules and features of AxSTREAM Professional. It is a software tool that can help you design and optimize any type of turbomachine for any application. AxSTREAM EDU can help you with the following tasks:


  • Create a preliminary design of any type of turbomachine based on your given specifications and constraints.



  • Perform 1D/2D/3D calculations of the flow path performance for each variant.



  • Create blade profiles for each stage of your turbomachine based on different methods.



  • Create 3D blade geometry for each stage of your turbomachine with custom twist, lean, sweep, thickness distribution, etc.



  • Perform rotordynamics analysis of the turbomachine rotor-bearing system.



  • Simulate secondary flows and cooling systems in turbomachines.



  • Perform multidisciplinary optimization of the turbomachine flow path and blade geometry.



AxSTREAM EDU is a comprehensive software suite that can handle any turbomachinery design challenge. Whether you are designing a new turbomachine from scratch or improving an existing one, AxSTREAM EDU can help you achieve your goals.


How to get AxSTREAM EDU for your school or university?




If you want to get AxSTREAM EDU for your school or university, you need to follow these steps:


  • Contact the sales team of SoftInWay at sales@softinway.com.



  • Provide them with some information about your school or university, such as name, location, number of students and faculty members, courses and research topics related to turbomachinery, etc.



  • Request a quote for AxSTREAM EDU based on your needs and budget.



  • Negotiate the terms and conditions of the purchase agreement with the sales team of SoftInWay.



  • Sign the purchase agreement and make the payment according to the agreed method.



  • Receive the installation file and license key for AxSTREAM EDU from SoftInWay.



  • Install AxSTREAM EDU on your school or university computers according to the instructions provided by SoftInWay.



Congratulations! You have successfully purchased and installed AxSTREAM EDU for your school or university. You are now ready to use it for your teaching and research purposes.


How to use AxSTREAM EDU for multidisciplinary design and optimization of turb machinery?




If you want to use AxSTREAM EDU for multidisciplinary design and optimization of turbomachinery, you need to follow these steps:


  • Launch AxSTREAM EDU from your desktop or start menu.



  • Select New Project from the File menu or click on the New Project icon on the toolbar.



  • Enter a name for your project and select a folder to save it.



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